EP1338715A1 - Prefabricated panel and method of production - Google Patents

Abstract

A building is assembled from reinforced concrete components including pre-fabricated panels employed as walls, ceilings, floors. Each panel consists of a concrete outer (4) wall with a series of internal parallel ribs (2) at regular intervals. The ribs support an inner wall. The gaps between the ribs are esp. filled with an insulating material (3). Each panel incorporates pipes (7) extending the full width, joined to matching pipes in adjacent panel sections.

Description

The present invention relates to a prefabricated building according to the preamble of claim 1, a building and a method for producing such Building the finished parts.

Such prefabricated buildings are generally known and are known as Floor slabs, wall parts and also ceiling parts for both the basement and for Bullets made. In all the known building prefabricated parts is one essential goal, sufficient load-bearing capacity and insulation in the provide individual parts, and at the same time as inexpensive as possible Manufacture of the individual parts as well as the parts to be subsequently built from them To reach the building. It should always be noted that the individual Prefabricated building parts do not become too large or too heavy, so that they can still Construction site can be brought up. This is becoming more problematic in With a view to sometimes very narrow access routes to the buildings.

The present invention is therefore based on the object of one possibility to propose with the prefabricated building parts with less weight than before and statically sufficiently stable with high thermal insulation can be.

This object is achieved by a prefabricated building, a building and by a method with the features of the independent claims solved. Further advantageous embodiments are the respective back-related See subclaims.

According to the invention, the finished building part consists of a flat Concrete part on which one flat side webs are formed, which essentially from one edge of the concrete part to the opposite edge of the concrete part run. Insulation material is arranged between the webs. This structure of the concrete parts causes a considerable reduction in material without the Stability of a concrete part up to twelve meters long is impaired. The Ridges can basically go from one long side to the opposite Long side or from one transverse side to the opposite transverse side run, with all parts of the building, i.e. the base plate or parts of the Base plate, side walls and ceilings can all have this structure. This makes the production of the prefabricated parts on the one hand and afterwards of the building is particularly cost-effective. The distances between the webs are aligned according to the statics or possibly to be arranged in between Wall openings.

A circumferential web is arranged at the edge of the concrete part. Through this footbridge the walls get a frame construction, which is then between each Bridges are filled with insulation material.

According to a preferred embodiment, the webs can be completely variable Insulation material or planking material, such as chipboard, also cement-bound, plasterboard or other common materials, covered become. Depending on the type of prefabricated part, this part is designed accordingly. So a layer of insulation material is used for a floor slab and a layer for a ceiling Layer of planking material for the inclusion of appropriate Weight forces, and with a side wall, depending on the projectile either one or the other material used. The side walls can on the construction site with either internal or external insulation be rotated. Furthermore, the is also possible in the factory Apply external insulation.

For the support, for example, the base plate are expediently on Cutouts without insulation material are provided on the tops of the webs where the webs rest, for example, on a strip foundation.

According to a further preferred embodiment of the prefabricated part of the building, in the flat concrete part arranged pipelines, the advantageous way the side surfaces in the case of floor or ceiling slabs from the concrete part emerge and by means of a quick connector with the corresponding Pipeline of the adjacent concrete part can be connected. With that Prefabricated building parts for the floor or ceiling slab for the first time provided that already contain the pipes for the underfloor heating. At the Construction sites become from one floor or ceiling slab to the next slab overlapping pipes by means of a commercially available, in the building prefabricated part already connected quick connector connected.

Also the sewage pipes or other pipes as well as electrical outlets for the electrical installation can be installed in the factory. In the passage areas easily destructible foam bodies through the webs or in the webs or the like to be placed at the construction site to be able to insert appropriate elements (pipes, electrical sockets, etc.).

Such prefabricated buildings are at the construction site in the usual way and Way connected. The prefabricated building parts according to the invention can be manufactured with a length of up to 12 m and a weight of approx. 5 t become. Due to the one smooth side of the prefabricated parts and the sufficient insulation on the opposite side, it is possible to provide a floor slab that further application of a screed makes necessary. As mentioned above, the floor plate contains the heating pipes and there is adequate thermal insulation opposite in the ground. This eliminates the screed, which in turn leads to a leads to considerable cost savings in the construction of such buildings.

A

Anbringen der Randabschalung in bekannter Weise auf einer Arbeitsplatte;

C

Aufbringen von Dämmmaterial mit Zwischenraum unter Berücksichtigung der herzustellenden Stege;

D

Einbringen von Armierungen in den Bereich der Stege und oberhalb des Dämmmaterials;

E

Ausgießen der Zwischenräume und Aufgießen auf die Dämmmaterialoberfläche entsprechend deren Abschalung; und

F

Rütteln der Anordnung.

The following steps are carried out in accordance with the process for producing prefabricated buildings:

A

Attaching the edge formwork in a known manner on a worktop;

C

Applying insulation material with space in between, taking into account the webs to be produced;

D

Installation of reinforcements in the area of the webs and above the insulation material;

e

Pouring out the gaps and pouring them onto the surface of the insulating material in accordance with its formwork; and

F

Shaking the arrangement.

The steel plate of a vibrating table is usually used as the worktop here used, on which the extent of the prefabricated part of the building is determined. Depending on Desired type of execution and purpose can be with a Intermediate step B the cut surface with insulation material or Cladding material to be covered to the interior insulation layer or to bring internal planking. If the client wishes, nothing will happen inserted and it is the responsibility of the material requested by him on the To be attached to the construction site. Then this is between the individual webs insulation material to be arranged with space taking into account the webs to be produced and possibly the edge web. After that the reinforcements in the area of the webs and above the Insulation material attached and connected together. Pouring out the Spaces and concreting of the flat concrete part is done in the usual way Way. The surface is shaken after the surface is smoothed Arrangement and subsequent hardening of the concrete. So it can be inside Such a prefabricated building can be produced in the shortest possible time.

If external insulation is to be applied, this can alternatively be carried out the removal of the finished part from the vibrating table, preferably in the erect position.

Also in the insulation material and in the area of the webs Wastewater pipes, for example WG pipes, in all directions in the Finished part level can be arranged. For the passage through the webs for the subsequent installation will be easily destructible insulation bodies or similar inserted.

Preferably, before step E, above the insulation surface Pipelines arranged. If building openings are provided, this was introduced after step A within the edge formwork.

If concrete is mentioned in the present and the following text, is it goes without saying that all types of concrete or cement-bound pourable hardening materials are used can.

Figur 1

einen Querschnitt durch ein Fertigteil für eine Geschosswand gemäß der Erfindung;

Figur 2

die Ansicht eines Wandteils;

Figur 3

die Draufsicht auf eine Bodenplatte bestehend aus drei einzelnen Bodenplattensegmenten;

Figur 4

eine schematische Ausschnittdarstellung einer Bodenplatte mit darauf aufgesetztem Wandfertigteil; und

Figur 5

beispielhaft eine Schnittdarstellung durch Boden, Wand und Decke.

The invention is explained in more detail below in conjunction with the accompanying drawings. They represent:

Figure 1

a cross section through a finished part for a storey wall according to the invention;

Figure 2

the view of a wall part;

Figure 3

the top view of a base plate consisting of three individual base plate segments;

Figure 4

is a schematic sectional view of a floor slab with prefabricated wall part placed thereon; and

Figure 5

an example of a sectional view through floor, wall and ceiling.

In principle, FIG. 1 shows the cross section through a prefabricated part of the building illustrated and shows the insulation layer 1 for the outside of the Wall, the insulation segments 3 arranged between the concrete webs 2, the all around with the flat concrete part 4 and the webs 3 due to the shrinking manufacturing process. Located in the webs 2 the reinforcement 5 and the reinforcement 6 in front of the insulating concrete part 4, the individual reinforcements are connected to each other. When reinforcing 5 is the usual lattice girder and the reinforcement 6 is the usual Welded wire mesh. Then on the structural steel mats 6, if applicable, if it is a Floor or ceiling plate, pipes 7 are arranged for heating.

Figure 2 shows the view of a prefabricated building 8 in the form of a basement wall the individual with different distances from each other parallel webs 2 and a circumferential edge web 9. The distance of the Individual webs vary according to requirements, but exceed usually not the span of one meter. By doing Exemplary embodiment, a cellar window 10 is provided in a segment 3. at this representation, the insulation 1 is omitted, otherwise the individual Bars 2 would not be visible. In this prefabricated part of the building, the edge web 9 which is not shown in Figure 1, made wider than that in between extending webs 2 and formed as a peripheral edge web.

Figure 3 shows a base plate 11, which consists of three individual Base plate segments 12, 13, 14 there. Depending on the individual Base plate segments on two or three sides an edge web 9. at this embodiment, a further central web 15 is provided on the then a partition can be set up. Not in this example Foundation strip shown runs below the edge webs 9 and the Middle web 15. The three base plate segments 12, 13, 14 can for example a width of three meters each and a length of twelve meters each exhibit. At the construction site, they are of a type and familiar to the expert Put together and firmly connected.

FIG. 4 shows a detail view with the outer foundation strip 16, the median strip foundation 17 and the base plate supported thereon 11. At the edge of the base plate 11 is a suitably manufactured Prefabricated building part 8 as a side wall part. The additional external insulation 18 and interior insulation 19 provides the necessary insulation. Through the Insulation of segments 3 down can be on the top of the screed be dispensed with and an appropriate floor covering must be applied. In addition, as shown in Figure 1, heating pipes can be introduced.

FIG. 5 shows the assembly of a base plate 20 in a sectional view with a side wall 21 and a ceiling 22. In this illustration, the Interior of a cement-bound hardboard 23 with a thickness of 8 to 10 mm provided.

A building can now be made entirely of these in the manner shown Parts are assembled, making it an inexpensive alternative is made available for building houses. The arrangement of appropriate Window openings or stairs and walls can be made individually.

Claims (11)

Prefabricated part of a building consisting of a flat concrete part with internal reinforcement and insulation applied to a flat side of the concrete part, characterized in that webs (2) are formed on one flat side, essentially from one edge of the concrete part (4) to the opposite edge of the concrete part (4 ) run and between the webs (2) insulating material (3) is arranged. Prefabricated building part according to claim 1, characterized in that an insulating material (1) or planking material is arranged on the upper sides of the webs. Prefabricated building part according to claim 1, characterized in that the webs (2) are arranged substantially parallel and run either from one long side to the opposite long side or from one transverse side to the opposite transverse side of the concrete part (4). Prefabricated building part according to one of the preceding claims, characterized in that pipes (7) are arranged in the flat concrete part (4). Prefabricated building part according to claim 4, characterized in that the pipelines emerge from the concrete part (4) on the side surfaces and can be connected to the corresponding pipeline of the adjacent concrete part by means of a quick connector. Prefabricated building part according to one of the preceding claims, characterized in that pipes for the drainage are arranged in the segments (3) of the flat concrete part (4). Building from prefabricated parts, characterized in that the floor slab, the outer walls and the ceiling are made from prefabricated building parts according to one or more of claims 1 to 6. Method for producing prefabricated building parts according to claim 1 with the following steps:

A

Attaching the edge formwork in a known manner on a worktop;

C

Application of further insulation material with space, taking into account the webs to be produced;

D

Installation of reinforcements in the area of the webs and above the insulation material;

e

Pouring out the gaps and pouring them onto the surface of the insulating material in accordance with its formwork; and

F

Shaking the arrangement.

A method according to claim 8, characterized in that before step C, a step B is carried out with covering the switched-off area with insulating material or planking material. A method according to claim 8, characterized in that before step E, pipes (7) are arranged above the insulating material surface. A method according to claim 8, characterized in that after step A building openings (10) are arranged within the edge formwork.

Images