DE102007010922A1 - Concrete floor construction - Google Patents

Abstract

The invention relates to a component for a ground cover construction, comprising a multilayer construction, comprising at least one lower layer formed by a prestressed, in particular uniaxially prestressed element plate for absorbing tensile stresses and at least one upper concrete layer arranged above it, in particular a reinforced concrete layer, for absorbing compressive stresses. wherein the upper concrete layer is vertically spaced from the element plate, wherein a plurality of punctiform or strip-shaped support members are arranged to form a connection between the element plate and the upper concrete layer, such that a cavity is formed between the element plate and the upper concrete layer.

Description

The Invention relates to a structural element for a concrete floor construction, comprising a multilayer structure containing at least one, by a prestressed, in particular uniaxially prestressed element plate for receiving tensile stresses formed lower layer and at least an upper concrete layer arranged above, in particular a reinforced concrete layer for absorbing compressive stresses, wherein the upper concrete layer vertically spaced from the element plate is. Furthermore, the invention relates to a concrete ceiling construction, which is formed from such components.

From the EP 1 528 172 A2 is a prestressed flat ceiling with hollow ceiling panels known. In this case, a plurality of hollow ceiling slabs is laid, in each case one side of the hollow ceiling slabs are integrated into a prestressed, made of in-situ concrete belt strip.

adversely is doing that preload in the secondary construction lies, namely in the required cross members. Another disadvantage is that a high production cost for the production Such a ceiling is required because on the one hand prefabricated Components must be processed, but also on the other hand In-situ concrete and then further on the construction site nor the corresponding Preload must be generated.

Farther The disadvantage is that the space for installations in the Hollow ceiling is bounded by the cross beams.

task The invention is to overcome these disadvantages and a structural element for a concrete ceiling construction and a Concrete floor construction in such a way that a simpler Production at the construction site is possible and it at the same time allows an installation room for more Fixtures between the element panels and the upper concrete layer to create, with the greatest possible flexibility can be used.

These The object is achieved by a component according to claim 1 and a concrete ceiling construction according to claim 12.

Thereby, that a plurality of punctate or strip-shaped Support elements for forming a connection between the element plate and the upper concrete layer is arranged, such that a cavity formed between the element plates and the upper concrete layer It is possible to make a concrete ceiling construction simple Manufacture manner, with the arrangement of the support elements it is avoided to use lattice girders, d. H. the Connection of the cover plate with the lower element plate is through punctiform or strip-like dowels produced. These support elements can be circular or be designed rectangular. The resulting Cavity between the element plates and the upper concrete layer can be used for any installation purposes and in particular replace a cavity floor, as he stood The technology in office construction was required to complete the installation respectively.

By the components of the invention for Concrete ceiling constructions respectively the concrete constructions thus formed It becomes possible to use a prestressed single-ply ceiling to realize a large span, in particular a wide span Ceiling up to 16 meters at about 40 cm height, without that Interior props will be required. It thus becomes advantageous Make a wide-span ceiling without beams or columns or the like, whereby on particularly advantageous Way a flexible architecture is enabled.

Further advantageous embodiments of the invention are in the subclaims specified.

So it is particularly advantageous if the support elements with each other are horizontally spaced, in particular, the support elements can be equidistant be arranged. This makes it possible with standardized to work prefabricated components. Alternatively you can the support elements also according to the transverse force curve or accordingly be arranged the mechanical stress. This is it advantageously possible, the inventive Components respectively the concrete ceiling construction according to the invention the respective requirements regarding the use and the adapt to mechanical stress.

Preferably the support elements are integral to the element plates formed. In particular, the support elements by steel reinforced, Concrete-coated elements are formed and are preferably fire-resistant executed. In particular, by a fire-protected Execution of the support elements can on further sheaths be waived in order to achieve the appropriate fire protection class. As a result, enough free cavities between created the lower concrete slab and the upper concrete slab, the to run installations.

Preferably are the support elements in the form of projecting into the upper concrete layer Dowels performed.

In a preferred embodiment, the element plates on the side projecting connecting elements. In particular, the element plates in concrete ceiling constructions connected to each other, in particular by means of welded joints and / or screw, which can be produced in particular using the laterally projecting connecting elements.

Preferably the element panel is made of high strength concrete.

In In a preferred embodiment, the device is such designed that in the upper concrete layer on side edges recesses are formed, so that in a concrete ceiling construction using the components in the upper concrete layer openings form, through which the cavity is accessible.

By these openings in the upper concrete ceiling layer is the free cavity between the lower concrete slab and the upper concrete slab accessible, so that on the one hand connections between the Element panels are produced, in particular using laterally projecting connecting elements on the element plates by means of welded joints and / or screw connections. Furthermore, it is possible through the in the upper concrete layer trained openings to get to the cavity and make the appropriate installations in this cavity, because these recesses in the upper plate at the same time as access serve to the raised floor.

The Fugues of the bottom slab of the concrete slab construction by the plurality of prestressed element plates can be formed with concrete or a suitable flowable mortar to be shed.

The Upper concrete slab consists for example of fiber concrete, lightweight concrete, Normal concrete or high-strength concrete. This makes it possible the concrete ceiling construction to the respective static requirements adapt. The lower plate consists of uniaxially biased high strength concrete. The connection of the lower plates can be over each other Steel-like installation parts via welding or screw connections respectively. For producing these compounds and / or for pouring the joints is the cavity through recesses in the upper concrete slab accessible.

In a preferred embodiment of the concrete ceiling construction one or more vibration absorbers are arranged in the cavity. By having one or more vibration absorbers in the cavity the concrete floor construction, d. H. between the lower preloaded Element plate and the upper concrete layer is or are arranged it is possible to use low-vibration concrete ceilings larger Span to realize.

One Embodiment of the invention is shown in the figures and will be explained below. Show it:

1 FIG. 2: a partially cut concrete construction composed of three components in a first perspective view, FIG.

2 : the concrete ceiling construction after 1 in a second perspective view,

3 : the concrete ceiling construction in a third perspective view,

4 the concrete ceiling construction in a fourth perspective view.

In the 1 to 4 is a concrete ceiling construction according to the invention, which is formed by a plurality of components, in a partially sectioned representation in various perspectives.

The concrete ceiling construction has a multilayer construction and is formed in the lower area by prestressed element panels 1 for absorbing tensile stresses. For this the element plates contain 1 prestressed prestressing steel rods 2 , The prestressing steel 2 allows a uniaxial bias of the plates 1 for absorbing tensile stresses in the concrete floor construction.

The construction elements have a concrete layer in the upper area 3 on. This concrete layer 3 serves to absorb compressive stresses. Between the element plates 1 and the concrete layer 3 is formed a cavity 4 which can be used for further installations.

The connection between the prestressed element plates 1 and the concrete layer disposed above 3 is made by a variety of support elements 5 , which are fire-resistant executed by a concrete casing and ultimately represent a concrete-led steel component and like a dowel in the concrete layer 3 protrude. The distribution of these support elements 5 takes place according to the load of the concrete ceiling construction.

The prestressed element plates 1 are interconnected by laterally projecting fasteners 6 which are welded together so that a composite is produced.

To gain access to the cavity 4 to enable, in particular for the production of welded joints on the connecting elements 6 for connecting the element plates 1 have the elements of the upper concrete layer 3 recesses 7 on. Through these recesses 7 through it NEN the welded joints of the element plates 1 getting produced. Furthermore, this is the cavity 4 accessible for insertion or connection of various installations in the cavity 4 , such as electrical lines, lines of air conditioning systems or the like.

The upper concrete layer 3 has similar to the fasteners 6 the element plates 1 also fasteners 8th on, by means of which the upper cover plates 3 the components are interconnected to form the concrete floor construction of several individual components.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1528172 A2 [0002]

Claims (17)

Structural element for a concrete floor construction comprising a multilayer structure, comprising at least one element panel (in particular uniaxially prestressed by a prestressed, 1 ) formed for receiving tensile stresses lower layer and at least one disposed above upper concrete layer ( 3 ), in particular a reinforced concrete layer, for absorbing compressive stresses, wherein the upper concrete layer ( 3 ) from the element plate ( 1 ) is vertically spaced, characterized in that a plurality of punctiform or strip-shaped support elements ( 5 ) for forming a connection between the element plate ( 1 ) and the upper concrete layer ( 3 ) is arranged such that a cavity ( 4 ) between the element plate ( 1 ) and the upper concrete layer ( 3 ) is trained. Component according to Claim 1, characterized in that the supporting elements ( 5 ) are spaced horizontally with each other. Component according to claim 1 or 2, characterized in that the support elements ( 5 ) are arranged equidistantly. Component according to claim 1 or 2, characterized in that the support elements ( 5 ) are arranged according to the transverse force curve or according to the stress. Component according to one of the preceding claims, characterized in that the supporting elements ( 5 ) on the element plates ( 1 ) are integrally formed. Component according to one of the preceding claims, characterized in that the supporting elements ( 5 ) are formed by steel reinforced concrete coated elements. Component according to one of the preceding claims, characterized in that the supporting elements ( 5 ) are fire protected. Component according to one of the preceding claims, characterized in that the supporting elements ( 5 ) in the form of in the upper concrete layer ( 3 ) protruding dowels are executed. Component according to one of the preceding claims, characterized in that the element plate ( 1 ) laterally projecting connecting elements ( 6 ) having. Component according to one of the preceding claims, characterized in that the element plate ( 1 ) is made of high-strength concrete. Component according to one of the preceding claims, characterized in that in the upper concrete layer ( 3 ) on side edges recesses ( 7 ) are formed. Concrete floor construction, in particular formed by structural elements according to one of the preceding claims, comprising a multilayer construction, comprising at least one lower layer of prestressed, in particular uniaxially prestressed elemental panels ( 1 ) for the absorption of tensile stresses and at least one upper concrete layer ( 3 ), in particular a reinforced concrete layer, for absorbing compressive stresses, wherein the upper concrete layer ( 3 ) of the element plates ( 1 ) is vertically spaced, characterized in that a plurality of punctiform or strip-shaped support elements ( 5 ) for forming a connection between the element plates ( 1 ) and the upper concrete layer ( 3 ) is arranged such that a cavity ( 4 ) between the element plates ( 1 ) and the upper concrete layer ( 3 ) is trained. Concrete floor construction according to claim 12, characterized in that the supporting elements ( 5 ) are arranged equidistantly. Concrete floor construction according to claim 12, characterized in that the supporting elements ( 5 ) are arranged according to the transverse force curve or according to the stress. Concrete floor construction according to one of the preceding claims, characterized in that the element panels ( 1 ) are interconnected, in particular by means of welded joints and / or screw connections. Concrete floor construction according to one of the preceding claims, characterized in that in the upper concrete layer ( 3 ) Openings ( 7 ) are formed, through which the cavity ( 4 ) is accessible. Concrete floor construction according to one of the preceding claims, characterized in that in the cavity ( 4 ) one or more vibration absorbers is / are arranged.