DE102005025037A1 - Wall production method for buildings involves allowing wall piece and insulating material layer to harden after another wall piece has been overlaid - Google Patents

Abstract

An insulating material layer (3') is applied to a surface of a wall piece (2) while a bonding reinforcement (4) is applied to the facing surface of the wall piece (1). The wall piece (1) is placed onto the wall piece (2). The bonding reinforcement penetrates the insulating material layer and the wall piece (2) until the work area (21). The wall piece and insulating material layer are allowed to harden.

Description

The The invention relates to a method for producing a wall component for the Creation of building walls according to the preamble of claim 1.

such Wall components are known. They essentially consist of one first concrete wall part and a second concrete wall part passing through a lattice girder structure are interconnected and kept at a distance. In front Place, d. H. So after arranging such wall components the construction site in the correct positions, the space becomes poured between the concrete wall parts with liquid filled concrete. To this Way can be perfect on the time-consuming and costly installation of formwork walls be waived.

From the DE 198 23 387 A1 shows a method for producing a wall element for the construction of buildings, which consists essentially of an outer wall part and a spaced therefrom inner wall part, wherein the outer wall part and the inner wall part are connected to each other via a lattice structure and are kept at a distance. On the inside of the outer wall, an insulating layer of polyurethane foam is applied in several layers to a desired thickness. The cavity located between the insulating layer and the inner wall is filled with filling concrete at the construction site. One problem with an insulating layer consisting of polyurethane foam is that, when the polyurethane foam is cured, irregularities and voids are produced which are disadvantageous when filling the filled concrete. In addition, the introduction of the polyurethane foam between the struts of the lattice girder structure secured in the outer wall is difficult, time consuming and therefore expensive.

One Another method for producing an insulating layer on the inside of the outer wall part is that individual insulation boards in the interstices be inserted between the struts of the lattice structure. Also this procedure is extremely complex and time-consuming, as the individual insulation panels cut and inserted individually in the spaces mentioned Need to become.

The The object of the present invention is therefore a method for the manufacture of a wall element for the construction of buildings, with its help on the inside of the outer wall part an insulating layer in an extremely simple, cost-saving and effective way can be attached.

These The object is achieved by a method having the features of the claim 1 solved.

Of the The essential advantage of the present invention is that in a conventional way manufactured, the lattice girder structure already containing inner wall part simply on the not yet cured outer wall part is placed on the inside of which also not yet cured insulation layer located. The placement of the inner wall part takes place in such a way that the inner wall part facing side of the lattice girder structure the not yet cured insulation layer completely penetrates and in the liquid concrete of the not yet cured Outer wall part occurs, so after curing of the insulation layer and the outer wall part the finished wall component arises, in which the outer wall part and the inner wall part over the lattice girder structure connected to each other.

Especially preferred and simple is the described arranging the finished Inner wall part with the lattice girder structure in relation to the outer wall part with the help of a so-called tilting table, on the tilting part of the inner wall part is fixed.

Either in the inner wall part as well as in the not yet cured materials of the straight on a horizontal work surface to be produced outer wall part can with the help of formwork parts recesses for doors and / or windows or the like openings produced, e.g. in the illustrated tipping of the inner wall part on the outer wall part be aligned congruent to each other. The lattice girder structure is spared accordingly.

The still liquid material of the outer wall part filled with shuttering parts arranged on a work table and the still liquid material of the insulating layer applied thereto are advantageously shaken before hardening and during insertion of the lattice girder structure, so that a uniform thickness and distribution of the concrete of the outer wall part and a uniform thickness and Distribution of the material of the insulating layer can be achieved. In particular, in the arrangement of formwork parts in the region of the uncured layer of the outer wall part and the not yet cured insulation layer is in each case a close contact between the material of the outer wall part and the material of the insulating layer and the various Scha lunging parts of the outer wall part reached.

One particular advantage of the invention is also that the insulation layer consists of particles in the uncured material of the outer wall part swim. After applying the still liquid insulation layer on the likewise still liquid Concrete layer of the outer wall part is therefore a mixing of the liquid insulation layer and the liquid Concrete layer avoided.

Especially Advantageously, an insulating layer is one made of styrofoam particles and a corresponding binder existing layer.

in the The invention will be explained in more detail in connection with the figures. It demonstrate:

1 a schematic representation of a cross section through an inventive wall component;

2 a schematic representation of a tilting table assembly for explaining the method according to the invention, wherein the state is shown in which the inner wall part is not yet connected to the outer wall part;

3 in a schematic representation of the tilting table arrangement of 2 wherein the state is shown in which the inner wall part is already connected to the outer wall part; and

4 a development of the invention.

The 1 shows the side view of a wall component according to the invention 10 , In essence, this consists of a first wall part, in particular an inner wall part 1 , a second wall part, in particular an outer wall part 2 , an insulation layer 3 on the inner wall part 1 facing side of the outer wall part 2 is applied, and a composite reinforcement, in particular a commercially available lattice girder structure 4 that the interior building wall part 1 and the exterior wall part 2 connects and keeps at a distance. The lattice girder structure 4 passes through the insulation layer 3 ,

The lattice girder structure 4 consists of individual struts 5 , one of which ends with reinforcing strands 7 connected and in the inner wall component 1 embedded or secured in this.

The individual pursuits 5 preferably each run in a conventional manner, starting from the inner wall part 1 approximately triangular in the direction of the outer wall part 2 and back to the inner wall part 1 , At the outer wall part 2 facing side are the ends of the struts 5 preferably with reinforcing strands 8th connected.

The inner wall part 1 and the outer wall part 2 each consist of a concrete material and each have a thickness of about 4 to 6 cm. Preferably, the lattice girder structure 4 from a steel material.

The insulation layer 3 preferably consists of a mixture of at least insulating particles and a binder. It is important that the insulating particles are relatively light, so that, as will be explained later, in the manufacture of the outer wall part 2 Float on the surface of the still liquid, uncured concrete material. In particular, it is the insulating layer 3 to an under the brand name "thermotec ^® " from the company "Mix it insulation materials production and distribution GmbH" sold insulation layer, which is mixed together from polystyrene particles and a binder. The insulating layer hardens after the introduction of the composite reinforcement to a solid insulation layer.

After the production and transport of the present wall components 10 For the construction site, these are arranged to build a building or building respectively in the desired positions and is filled concrete 6 in the spaces between the insulation layers 3 and the inner wall parts 1 filled.

The following is now related to the 2 and 3 the inventive method for producing a wall component 10 explained in more detail.

To avoid the problems described at the beginning, with the production of the insulation layer 3 in the area of the lattice girder structure 4 are connected, first, an inner wall component 1 produced, with the reinforcing strands 7 the lattice girder structure 4 in the concrete material of the inner wall component 1 be embedded. On the work surface 21 a work table is a the outer contour of the outer wall part to be produced 2 bordering formwork, which expediently consists of individual formwork parts 22 exists, arranged. After that, the liquid concrete material 2 ' in the formwork parts 22 filled up to a predetermined height. For a particularly uniform distribution of the concrete material 2 ' To reach that can be the work surface 21 exhibiting worktop be shaken in a conventional manner.

On the surface of the still liquid Be clay material 2 ' becomes the likewise liquid material 3 ' the insulating layer applied to a predetermined height and distributed as evenly as possible. As the formwork parts 22 over the surface of the concrete material 2 ' protrude, the material becomes 3 ' inside the formwork parts 22 held. It is essential that the insulating particles of the material 3 ' not in the liquid concrete material 2 ' can sink because they are so light that they and on the surface of liquid concrete material 2 ' swim. During the filling process, insulating particles rise into the liquid concrete material 2 ' have penetrated, especially when shaking the work surface 21 and the formwork parts 2 upwards, so that later hardening of the materials 2 ' and 3 ' to the outer wall part 2 or to the insulating layer 3 each homogeneous and uniformly thick layers with smooth surfaces arise.

According to 3 However, before curing the concrete material 2 ' and the material 3 ' the inner wall part 1 preferably on the countertop 20 a known tilting table is fixed, so in the direction of the work surface 21 moves, preferably tilted, that the end portions of the struts 5 the lattice girder structure 4 the still liquid or uncured material 3 ' penetrate and into the still liquid or uncured concrete material 2 ' penetration. This condition is in the 3 shown. When using a tilting table, the tilting of the worktop takes place 20 around the fulcrum shown schematically 23 and in the direction of the arrow P.

Until the concrete material hardens 2 ' to the outer wall part 2 as well as the material 3 ' to the insulating layer 3 becomes the worktop 20 with the inner wall part fixed thereto 1 in the in 3 held position, so that the end portions of the struts 5 and possibly the strand reinforcements 8th during curing of said materials 2 ' and 3 ' be firmly embedded in these. As doing preferably the work surface 21 and the formwork parts 22 be shaken, it is ensured that the initially still liquid materials 2 ' and 3 ' the corresponding areas of the struts 5 and optionally the strand reinforcements 8th enclose virtually completely tight, so that after curing a particularly strong and one-piece and cavity-free connection between the inner wall part 1 and the outer wall part 2 over the lattice girder structure 4 arises.

If the wall element 10 Doors and / or windows or the like should contain openings are in the inner wall part 1 with the help of appropriate formwork parts ( 2 ) corresponding recesses 25 produced. The lattice girder structure 4 is left out in these areas. The recesses 25 corresponding formwork parts 26 be before filling the materials 2 ' and 3 ' on the work surface 21 arranged so that after tipping over the inner wall part 1 according to 3 the recesses 25 of the inner wall part 1 to the formwork parts 26 and the corresponding enclosed recesses are arranged congruently.

According to 4 can the composite reinforcement 4 ' also be formed by that in the first wall part 1 grid-shaped spaced apart anchor parts 41 are introduced, preferably the shape of the wall part 1 protruding rod parts 41 have. The protruding areas of these bar parts 41 then penetrate in the manner described above in the material of the insulating material layer 3 as well as in the material of the second wall part 2 one, if the first wall part 1 to the second wall part 2 is moved.

Preferably, the anchor parts or rod parts exist 41 from a carbon fiber reinforced plastic material.

Claims (14)

Method for producing a wall element, in particular for the construction of buildings, having a first wall part ( 1 ), a second wall part ( 2 ), one on the first wall part ( 1 ) facing side of the second wall part ( 2 ) applied insulating layer ( 3 ) and one the first wall part ( 1 ) and the second wall part ( 2 ) connecting composite reinforcement ( 4 . 4 ' ), characterized in that the composite reinforcement in the first wall part ( 1 ) that the liquid material ( 2 ' ) of the second wall part ( 2 ) in one on a work surface ( 21 ) arranged formwork ( 22 ) is introduced, that in the formwork ( 22 ) on the liquid material ( 2 ' ) of the second wall part ( 2 ) the liquid material ( 3 ' ) of the insulating layer ( 3 ) is applied, that the first wall part ( 1 ) so to the second wall part ( 2 ) is moved to a position in which the second wall part ( 2 ) facing side of the composite reinforcement ( 4 . 4 ' ) the material ( 3 ' ) of the insulating layer ( 3 ) penetrates and into the material ( 2 ' ) of the second wall part ( 2 ), and is capable of curing the material ( 2 ' ) of the second wall part ( 2 ) and the material ( 3 ' ) of the insulating layer ( 3 ). Method according to claim 1, characterized in that the first wall part ( 1 ) as inner wall part and the second wall part ( 2 ) can be used as outer wall part. Method according to claim 1 or 2, characterized in that the material ( 2 ' ) of the second wall part ( 2 ) and / or the first wall part ( 1 ) is a concrete material. Method according to claims 1 to 3, characterized in that the material ( 3 ' ) of the insulating layer ( 3 ) Insulating particles and at least one binder, wherein the insulating particles are such that they on the liquid material ( 2 ' ) of the second wall part ( 2 ) swim. Method according to claim 4, characterized in that as material ( 3 ' ) of the insulating layer ( 3 ) Styrofoam particle-binder mixture is used. Method according to claim 5, characterized in that as material ( 3 ' ) of the insulating layer ( 3 Is used) a "thermotec ^®" material. Method according to one of claims 1 to 6, characterized in that the liquid material ( 3 ' ) of the insulating layer ( 3 ) and the liquid material ( 2 ' ) of the second concrete layer before and / or shaking during curing in order to achieve in each case a close contact with the composite reinforcement. Method according to claims 1 to 7, characterized in that as composite reinforcement ( 4 ) a lattice girder structure is used. A method according to claim 8, characterized in that the lattice girder structure individual struts ( 5 ), one side of which has a reinforcement ( 7 ) are connected in the first wall part ( 1 ) and its other sides with another reinforcement ( 8th ) are connected in the second wall part ( 2 ) is introduced. Method according to one of claims 1 to 7, characterized in that the composite reinforcement ( 4 ' ) the shape of grid-shaped in the first wall part ( 1 ) arranged anchor parts, which over the first wall part ( 1 ) protrude. Method according to claim 10, characterized in that the anchor parts take the form of rod parts ( 41 ). Method according to claim 10 or 11, characterized in that the rod parts ( 41 ) consist of a plastic material, which is preferably reinforced with carbon fibers. Method according to one of claims 1 to 12, characterized in that the finished first wall part ( 1 ) with the composite reinforcement ( 4 . 4 ' ) on a worktop ( 20 ) of a tilting table is fixed, that the formwork ( 22 ) on a work surface ( 21 ), and that the worktop ( 20 ) around a pivot ( 23 ) is tilted into position. Method according to one of claims 1 to 13, characterized in that in the first wall part ( 1 ) Recesses ( 25 ) are produced for doors, windows or similar openings that with the help of formwork parts ( 26 ) in the second wall part ( 2 ) Areas of the liquid material ( 2 ' ) of the second wall part and the liquid material ( 3 ' ) of the insulating layer ( 3 ) and that in the position the recesses ( 25 ) congruent in the formwork parts ( 26 ) are aligned.