AT517824A1 - Slab, in particular floor or ceiling slab for a building - Google Patents

Abstract

A plate (1), in particular a floor or ceiling slab, for a building has a prestressed concrete slab (2) and at least one profiled support (3) embedded therein in part with a web (4) and a flange (5). The web (4) has in its longitudinal direction at least in sections a transverse to the longitudinal direction oriented profiling.

Description

The invention relates to a plate, in particular floor or ceiling slab for a building, with a prestressed concrete slab and at least one therein partially embedded profile beam with a web and at least one flange.

Such panels are prefabricated in the construction industry and placed on supports on foundations, columns or load-bearing walls, with a system floor or the like is subsequently placed on the profile support. The use of prestressed concrete slabs, which are commonly referred to as prestressed concrete slabs, has the advantage that the load capacity of the slabs is equal to or higher with less slab thickness and thus weight, which not only positively affects the weight of the slabs themselves, but also also on the overall structure or the total weight of the building.

Another central element of the plate according to the invention are the profile carrier, which are concreted with its web in the prestressed concrete slab, and which serve at the same time as a support for the system floor or corresponding system floor elements. This profile support serve on the one hand as a support for the system floor and on the other hand in conjunction with the concrete slab to increase the strength of the plate ', although it is undesirable to initiate the bias of the prestressed concrete slab in the profile beam or relocate the biasing forces in the steel.

The invention is therefore based on the object to solve this problem.

This object is achieved in a plate of the type mentioned in that the web has at least in sections a guer longitudinally oriented profiling in its longitudinal direction.

The profile carriers used in the invention are known per se in the prior art and are referred to as corrugated web carrier, wherein the corrugated web in the known carriers but essentially serves to increase the buckling stiffness of the web. In the invention, however, this profiling is used to stabilize the upper flange or flange and at the same time in the longitudinal direction of the profile of the prestressed concrete slab in the web introduced tensile or compressive forces to compensate, since the bridge can compensate for these forces similar, without them in to initiate the upper flange or flange.

The plate according to the invention is preferably tensioned only uniaxially, may e.g. be supplied by Ortbetonergänzungen but also a biaxial bearing effect.

The profiling need not extend in the invention over the entire length of the profile carrier, although 'this is preferred. The profiling can have a variety of shapes, such as a waveform, trapezoidal shape or the like.

Although it is in principle possible that the profiling does not extend into the prestressed concrete slab, it is preferred for both load-technical and manufacturing reasons, if the entire web has a continuous profiling.

In order to achieve sufficient anchoring of the profile carrier in the concrete slab, it is particularly preferred in the invention if connecting means for improved anchoring of the slat in the concrete slab are arranged in the region of the sections of the slab received in the concrete slab. These connecting means may be, for example, longitudinally or transversely to the web extending reinforcing elements, which are either cohesively, for example, welded, or positively, for example, through corresponding holes in the web, connected thereto.

Alternatively, it would also be possible, for example, to bend over sections of the longitudinal edge of the web which is received in the concrete slab in order to provide a corresponding pull-out protection.

In order to facilitate the laying of installation cables not only in the longitudinal direction between the profiled beams but also transversely to them, it is possible to provide ...... impregnation "...... A'üsneTmüngen ~" .... ................, which are arranged outside or above the concrete slab, through which the installation ducts can be laid The recesses can in principle assume any shape, but are preferably rectangular The trays may also extend into the concrete slab and in particular be open towards the edge of the web received in the concrete slab, which simplifies the production of the slits.

In the invention, the flange and the web are preferably made of different parts, which are welded together, as this offers the possibility of optimizing both the flange and the web in terms of weight and strength for themselves and then to connect together, for example to weld ,

On the profile carriers, a system floor can be placed, which extends over the entire area of the plate according to the invention or only over partial areas thereof. It is preferred if the width of the system floor elements substantially corresponds to the distance between two profile carriers and the length of the plate is substantially the same size, at most twice the width. The advantage of this dimensioning is that the system floor elements can be easily removed and replaced during installation work.

In order to achieve a sound insulation between the system floor or the system floor elements and the profile beams or the concrete slab, damping elements can be placed between the flanges and the system floor or the system floor elements, as is known per se. Advantageously, in the invention in the above-mentioned dimensioning of the system floor elements only discrete damping elements required, which must be present only in the region of abutting corners of the system floor elements, which compared to continuous Dämpfungseremehteh 'savings achieved: can be.

In addition, at the locations where the damping elements are arranged, also spacer elements inserted or height-adjustable adjusting elements are used, if necessary or desirable for a level adjustment of the system floor elements.

Further preferred embodiments of the invention are the subject of the remaining dependent claims.

Further features and advantages will become apparent from the following description of a preferred embodiment of the invention with reference to the accompanying drawings. It shows:

1 is a view of a plate according to the invention in the longitudinal direction of the profile carrier,

2 shows a side view of a section of a profile carrier according to the invention in an enlarged scale,

3 shows a view of a panel according to the invention with system floor elements laid thereon in a first embodiment,

4 shows a view of a panel according to the invention with system floor elements laid thereon in a second embodiment,

Fig. 5 shows a detail of Fig. 4 in an enlarged section and

6 is a plan view of the embodiment of Fig. 4th

Fig. 1 shows a plate 1 according to the invention, which is essentially constructed of a prestressed concrete slab 2 or prestressed concrete slab and profile beams 3, wherein in the illustrated embodiment, four profile support 3 are provided. More or less profiled beams are of course possible, ...... where the Belon plate in ..... the illustrated '"

Embodiment, for example, a width of 2.4 m and the profile carrier 3 have a distance of 60 cm from each other. The length of the concrete slab 2 is arbitrary within the scope of the technical possibilities and may, for example, be up to 8 m or 16 m long. Since the person skilled in the construction of a

Prestressed concrete slab is basically known, this will not be described in detail. For the same reason, the clamping elements or the reinforcement of the concrete slab 2 are not shown.

The profile carrier 3 are in the illustrated embodiment, essentially T-profiles with a web 4 and a flange 5. The web 4 has a profiling, which, for example, as shown in Fig. 5, may be wavy, with the profiling across the Longitudinal extent of the profile carrier 3 extends, as well as the drawn in Fig. 2 lines 6 can be removed. Other profile shapes than wavy, for example trapezoidal, are also possible. The profile carrier 3 are preferably made of steel, but may also consist of other materials or composite materials.

2 illustrates an enlarged side view of a section of a profile carrier 3. The web 4 has trapezoidal recesses 7 in this embodiment, wherein the recesses 7 are arranged so that they are partly outside or above the concrete slab 2 and the Edge 8 of the web 4 are open, so that the recesses 7 extend into the concrete slab 2. In the remaining also trapezoidal sections 9, which are received in the concrete slab 2, openings 10 are attached. Through these openings 10 connecting means can be inserted, which may be, for example, reinforcing elements, pins, headed bolts or the like, which if necessary firmly connected to the web 4, for example, welded, may be. Additionally or alternatively, further connecting means may be provided which, for example, extend in the longitudinal direction of the profiled supports "3"... "..... which are firmly connected to the sections 9, for example, welded. The length of these rods may be relatively short, but may also correspond to the length of the profile carrier 3. Finally, it would also be possible, for example, to bend the edge 8 or at least portions thereof, for example in the form of cut-free tabs, which likewise effects a good anchoring of the profile carriers 3 in the concrete slab 2. It is understood that the profile support 3 but can also be included without connecting means in the concrete slab 2.

If, as described above, recesses 7 are provided, there is an easy way to lay both in the longitudinal direction of the profile carrier 3 and transversely to these installation cables. Since the effect of the corrugated webs 4 according to the invention consists in introducing stresses from the concrete slab 2 as far as possible into the profiled carrier 3 and in particular its flange 5, the recesses 7 not only have no negative effect, but additionally support this function.

In Fig. 3 it is shown how two plates 1 according to the invention can be installed abutting each other at their longitudinal edges 11, 12, wherein the space between these spanning system floor elements 13 are placed on the profile beams 3. The system floor elements 13 can be produced as known per se from the prior art and consist, for example, of lightweight concrete. To a sound insulation between the

To realize system floor elements 13 and the profile beams 3, damping elements 14 are provided. These damping elements 14 may extend over the entire length of the profile carrier 3. Alternatively and preferred in the invention, however, when discrete damping elements 14 are used, which are arranged spaced apart from each other at defined intervals on the flanges 5, which enables a related material savings. "¥ e nngleröE '^ it' * at ....." the "E rTInHun g" ..... m & gXicK "" i "st7 ~ ^ äss '"' an ..... SfTeTTe "- individual system floor elements 13, for example, larger trapezoidal sheets are used with concrete, covering much larger sections or the entire surface of the plate 1, in the invention system bottom elements 13 are preferred, which are about the same length as wide, so substantially square also to use system bottom elements 13 which are shorter or longer than the width thereof (for example, the distance between two profile beams 3 and whose length is in particular an integer multiple of the width.

The advantage of the preferred dimension of the system floor elements 13, as described above, is ease of installation and also ease of removal when access to existing or relocation of new installations in the space below the system floor elements 13 is required. The discrete damping elements 14 are preferably arranged in the corner regions of the system bottom elements 13, wherein all adjoining system bottom elements 13 rest on a single damping element 14 or adjustment element 15.

4 and 5, an embodiment of the invention is shown in which in addition to the damping elements 14, adjusting elements 15 are used, which are placed on the damping elements 14. These adjusting elements 15 consist in the illustrated embodiment of a

Base plate 16 with a threaded rod 17, on which a sleeve 18 is screwed. At the end of the foot plate 16 adjacent the sleeve 18 has a flange 19, on which a plate 20 is supported. By turning the sleeve 18 'relative to the threaded rod 17, the height of the plate 20 can be changed over the base plate 16, whereby the height of the plate members 13 relative to the flange 5 and thus the bottom plate 2 can be changed.

The 'elefnento 13 have in their Eckbefeichen .................. ............. ~ circular sector-shaped cutouts 21, in which on the one hand the Sleeve 18 is received and by which on the other hand an access from above is provided to make the height adjustment by means of the adjusting elements 15 when the plate members 13 are already placed.

Claims (20)

claims: 1. plate, in particular floor or ceiling slab, for a building with a prestressed concrete slab (2) and at least one therein partially embedded profile beam (3) with a web (4) and a flange (5), characterized in that Web (4) in its longitudinal direction at least partially has a transverse to the longitudinal direction oriented profiling. 2. Plate according to claim 1, characterized in that the profiling has a waveform, trapezoidal shape or the like. 3. Plate according to claim 1 or 2, characterized in that at least part of the carrier has the form of T-beams, the web (4) in the concrete slab (2) is embedded. 4. Plate according to one of claims 1 to 3, characterized in that the profiling extends into the concrete slab (2). 5. Plate according to one of claims 1 to 4, characterized in that in the region of the in the concrete slab (2) recorded portions of the web (4) connecting means for improved anchoring of the web (4) in the concrete slab (2) are arranged. 6. Plate according to claim 5, characterized in that the connecting means are longitudinally or transversely to the web (4) ers-stretching reinforcing elements. 7. Plate according to claim 5 or 6, characterized in that the connecting means with the web (4) are cohesively or positively connected. 8. Plate according to claim 5, characterized in that the connecting means are bent portions of the web (4). 9. Plate according to one of claims 1 to 8, characterized in that the web (4) has recesses (7) which are arranged outside of the concrete slab (2). 10. Plate according to claim 9, characterized in that the recesses (7) extend into the concrete slab (2). 11. Plate according to claim 9 or 10, characterized in that the recesses (7) have a round, rectangular or a trapezoidal shape. 12. Plate according to one of claims 9 to 11, characterized in that the recesses (7) for in the concrete slab (2) recorded edge of the web (4) are open towards. 13. Plate according to one of claims 1 to 12, characterized in that the flange (5) and the web (4) are welded together. 14. Plate according to one of claims 1 to 13, characterized in that two or more profile carrier (3) are arranged substantially parallel side by side. 15. Plate according to claim 14, characterized in that on the flanges (5) a system bottom, in particular system bottom elements (13), rests. 16. Plate according to claim 15, characterized in that the width of the system floor elements (13) substantially corresponds to the distance between two profile carrier (3). 17. Plate according to claim 15 or 16, characterized in that the length of the system bottom elements (13) substantially corresponds to the distance between two profile carrier (3). 18. Plate according to one of claims 15 to 17, characterized in that the system bottom elements (13) via discrete damping elements (14) rest on the flanges (5). 19. Plate according to claim 17 or 18, characterized in that the damping elements (14) are arranged at a distance on the flanges (5), which corresponds substantially to the length of the system bottom elements (13). 20. Plate according to one of claims 15 to 19, characterized in that, in particular at the points at which the damping elements (14) are arranged between the flange (5) and the system base elements (13) height-adjustable adjusting elements (15) are arranged ,