DE3025135A1 - COMPOSITE CONSTRUCTION ELEMENT FROM CONCRETE, IN PARTICULAR CEILING ELEMENT, METHOD FOR THE PRODUCTION THEREOF AND USE IN CONSTRUCTION - Google Patents

Description

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Ernst Genten, Β-Α · 77ο Amel (Belgium)

Composite construction element made of concrete, in particular ceiling element, process for its production and use in Construction

The invention relates to a composite construction element, which is used in particular as a ceiling element for all types of Structures is suitable and can be used in particular for the execution of the lower house in construction.

ISs is known that in the building industry on a large scale ceiling elements for the creation of horizontal partition walls, d. H. of ceilings, find use.

These ceiling elements are prefabricated, reinforced concrete construction elements. Different types of reinforcement can be used during manufacture; the ceiling elements generally have a trapezoidal cross-section.

With their larger base area, the ceiling elements are placed on permanent supports (external or internal walls) and on temporary supports (stamps) as close as possible

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placed in abutment and then completely covered with concrete (the so-called filling); the Concrete is applied to the construction site and is used to fill in the V-shaped gutters or joints between them adjacent ceiling elements are formed. After the setting of the Concrete of the filling a covering smooth line applied on the top, which the floor for the upper On the lower floor, a cladding is placed, covering the ceiling surface of the lower one Floor forms.

The main disadvantage of conventional ceiling elements is their weight, which makes them possible Spans limited, transport costly and handling of the ceiling elements on the construction site be made more difficult. Also the required external completion is an adverse factor. Finally, there is even the factory production of the ceiling elements expensive and time-consuming because you have to wait for the concrete to set before molding.

The object of the present invention is therefore essentially to remedy the aforementioned disadvantages of conventional ceiling elements and the procedure to overcome their relocation.

This object is achieved by a self-supporting composite construction element made of concrete, in particular in the form of a Ceiling element, which is characterized in that it consists of insulating lightweight concrete, on the conventional Heavy concrete is poured. The heavy concrete preferably has reinforcement.

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Heavy concrete is to be understood as concrete that has the usual density of the types of concrete used in construction on construction sites.

The insulating lightweight concrete used is a porous lightweight concrete, which by adding hard foam to concrete was produced; it is characterized by the fact that it is light and at the same time high mechanical resistance is; its coefficients of thermal conductivity and sound conductivity guarantee a high insulation quality of the lightweight concrete.

One product that has proven to be particularly suitable for this is "NEOPOR", the product from NEOPOR VERFAHRENSTECHNIK GmbH, D-744o Nürtingen (Federal Republic of Germany) is put on the market.

The insulating lightweight concrete used preferably has a density of 300 to 6θΟ kg / m ³ , preferably 450 kg / m 3.

The composite structural elements that can be implemented in this way can have a span of 9 ni and more.

Their width can be between 0.40 m and 2.40 m. It it should be noted that the one used in the description Term "ceiling element" generally refers to structural elements which, depending on the way they are designed, can actually take on considerable widths.

According to a particularly advantageous embodiment of the Composite components according to the invention are in the insulating Lightweight concrete gutters are provided and placed on them

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the conventional heavy concrete poured in the form of a reinforced ribbed panel.

The invention also relates to a method for producing self-supporting composite structural elements from concrete of the invention, which is characterized in that insulating lightweight concrete to form a formwork form is used that optionally in this form of form a reinforcement is inserted, and that then conventional heavy concrete is poured to form a rigid composite component.

A particularly advantageous embodiment of the invention consists in that gutters are provided in the insulating lightweight concrete, inserted into the reinforcement parts and that then into the form of conventional heavy concrete consisting of insulating lightweight concrete is poured to form a one-piece composite component.

These composite components are particularly interesting because of their significantly reduced weight and their adaptability of standards, their high level of thermal insulation, their self-supporting capacity and their good sound insulation.

As a result of the design of the composite components according to the invention one has great adaptability in terms of span, load-bearing capacity and load capacity, especially in one embodiment which grooves are provided in the insulating lightweight concrete, in which the ribs of a ribbed panel are located. By changing the height of the ribs, you can choose between different support widths for normal loads in the Customize housing.

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The components are self-supporting and therefore have the The advantage that the structures can be created very quickly without the need for conventional formwork or temporary Outriggers would be required.

It is also possible to continue building immediately without waiting for the concrete to set would have to be, as is usual with conventional ceiling elements. With the appropriate design of the insulating lightweight concrete, it is possible to obtain a smooth shape immediately, which makes it possible to Immediately implement ceiling surfaces that may only need to be sanded down.

Through an appropriate design of the composite building elements According to the invention, the amount of concrete required for filling can be reduced to $ 10.

The invention is explained in detail below with reference to the accompanying drawings of composite components according to the invention explained, which are intended for the execution of a structure. It shows:

Fig. 1 is a partial plan view of the arrangement of the invention Components that are used in residential construction,

Fig. 2 is a partial section A-A in Fig. 1 to explain the shape and the design of the invention Composite components,

3 shows a detail of a component surrounded by a circle in FIG. 2, and FIG

FIGS. K and 5 show a perspective illustration and a section to show the connection between the components.

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1 shows four composite components according to the invention, which are placed close to one another on outer walls 3 and inner walls h . Some of the structural elements are provided with openings, such as an opening 5 which is intended for an elevator shaft, for example, or an opening 6 which is intended for a chimney. Holes can also be provided in the composite structural elements from the start. They can be provided for toilet pipes (T) ^ oa ^ t * -Sani ± ärlej-tungen (8 ¹ ).

The components 1 are simply placed close together like ceiling elements. Their length can be, for example vary from 0.80 to 10 m. It can be seen that the construction of structures is accelerated considerably as a result suggests that it is possible to introduce structural elements that reach a length of 10 ni without supports can.

From Fig. 2 it can be seen that the composite construction element made of lightweight concrete 10, the channels 11 in this special case has, and heavy concrete 12 is made.

The lightweight concrete is first poured onto a table of sufficient dimensions, the raised edges has, for example consisting of a smooth sheet metal with raised side edges. If if you want a special design of the outer surface before pouring the lightweight concrete, it is possible to use a coating, especially eiheTT ^ DBTxk ^ n ^ u ^^ - ^ Möji ^ eJL ^^. iad ^ r ^ cement or to apply a mixture of cement and sand to obtain a smooth and regular outer surface. After pouring the concrete you can still liquid Mass formwork cores or "buckets" are introduced, to form the grooves 11, in which then the

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Ribs of the lightweight concrete are poured.

After the lightweight concrete has set, the heavy concrete 12 is poured, which on the one hand enters the channels 11 and forms a rib 13 and on the other hand forms an upper surface Ik . A reinforcement 16 is preferably placed beforehand in the channel 11 and on the flat surface of the lightweight concrete 10, so that a reinforced ribbed panel is obtained.
10

The arrangement of the reinforcement 16 on the lightweight concrete 10 prior to the pouring of the heavy concrete 12 is shown in FIG.

FIGS. K and 5 show the way in which the connections between the components are carried out.

The lightweight concrete parts 10 are provided on their two side edges with a groove 17, which after Introducing the components is filled out and facilitates the connection.

The edges of the ceiling elements are bevelled to form a cavity 19> in which the edges of the reinforcements of adjacent ceiling elements meet; the The cavity is intended to receive a concrete filling.

It became a particular embodiment of the invention described, but without the invention being limited to the illustrated embodiment; in particular the invention is not limited to the specified dimensions. Rather, there are numerous variations and modified embodiments possible without the scope of the Invention to leave.

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Claims (1)

Ernst Genten, B-477o Arael (Belgium) Composite construction element made of concrete, in particular ceiling element, process for its production and use in
Construction Patent claims: 1. Self-supporting composite construction element made of concrete, in particular ceiling element, characterized in that that it consists of insulating lightweight concrete (1O), poured onto the conventional heavy concrete (12)
is. 2. Composite component according to claim 1, characterized in that the heavy concrete (12) is reinforcement (16). 3. Composite component according to claim 1 or 2, characterized characterized in that the insulating lightweight concrete used ^ l 5 (1O) is a lightweight concrete, which by adding from rigid foam to concrete. 030066/0697 A connecting component according to claim 3, characterized in that the lightweight concrete (10) used has a density of 300 to 6θΟ kg / m, preferably kg / m ³ . 5. Composite component according to one of claims 1 to 4, characterized in that the composite component (1) has a support width of 9 πι and more. 6. Composite component according to one of claims 1 to 5 » characterized in that the insulating lightweight concrete (10) is provided with channels (11), and that then the conventional heavy concrete (12) is poured in the form of a reinforced ribbed panel. 7. A method for producing composite structural elements made of concrete according to any one of claims 1 to 6, characterized in that characterized in that insulating lightweight concrete is used to form a formwork, that possibly in this form of reinforcement is inserted, and that then conventional heavy concrete is poured to form a rigid composite component. 8. The method according to claim 7 »characterized in that gutters are provided in the insulating lightweight concrete are inserted into the reinforcement parts, and that then into the insulating Lightweight concrete existing form of conventional heavy concrete is poured to form a one-piece composite component. 030066/0697 9. The method according to claim 7 or 8, characterized in that the insulating lightweight concrete on one Table with raised edges is poured previously with a coating of mortar or cement which connects to the composite building element to give it a smooth appearance. 10. Use of composite components according to one of claims 1 to 6 and / or according to the method Composite structural elements produced according to one of Claims 7 to 9 for the production of ceilings in the building industry. 030066/069?