DE2025189A1 - Multi-layer concrete slab - Google Patents

Description

Multi-layer concrete slab The invention relates to a prefabricated Multi-layer concrete slab made of reinforced concrete outer slab, reinforced concrete inner slab and intermediate insulation layer, wherein the intermediate insulating layer mostly consists of foam or the like. Such multi-layer concrete slabs are known in various embodiments, In particular, those are known in which reinforced concrete outer plate and reinforced concrete inner plate united by means of elastic, flexible bonded anchors embedded in the concrete which pass through the insulating intermediate layer. Ber on this way elastic composite serves to prevent different expansions between reinforced concrete outer plate and reinforced concrete inner plate the resilient shear connector made of relatively thin steel wire or relatively thin steel rods, which are thus elastically deformable. the known solution is not completely satisfactory.

Are the resilient shear connectors sufficiently thin and thus sufficiently elastically deformable, so a large number of such Resilient chemical anchors are used to prevent undesired displacements between Prevent reinforced concrete outer plate and reinforced concrete inner plate. That makes the known ones Elaborate embodiments, especially since the resilient shear connector itself must consist of austenitic steels according to the prevailing building regulations. is the number of elastically yielding shear connectors is small, at the expense of elastic deformability the thickness of the shear connector can be selected so that permanent deformations do not occur can step out. In all cases it interferes with the elastic deformation of the shear connector always including shear stresses and shear stresses in the steel cone outer plate and / or the reinforced concrete inner slab are introduced.

The invention is based on the object of specifying how a multi-layer concrete slab with regard to the design and arrangement of the chemical anchors is to be set up in order to be sufficient to ensure a flexible bond between reinforced concrete inner slab and reinforced concrete outer slab, without the disadvantages described above having to be accepted.

The invention relates to a multi-layer concrete slab made of reinforced concrete outer slab, Reinforced concrete inner plate and intermediate insulation layer (made of foam or the.), whereby reinforced concrete outer plate and reinforced concrete inner plate z by means of elastically flexible, Shear ties embedded in the concrete are combined, which form the intermediate insulation layer get through. The invention consists in the fact that the shear connector is (statically) rigid Composite bolts made of a shaft and widened heads and encased made of elastically deformable material (rubber or plastic), essentially orthogonal to the level of the multi-layer bespoke panel in the reinforced concrete inner panel as well as in the Reinforced concrete outer plate (in terms of statics) are elastically embedded. After preferred Embodiment of the invention, the widened heads have about twice the size Diameter of the shaft, they are expediently molded onto the shaft. in the frame The invention is, however, initially as a shear connector Use commercially available screw bolts that have a molded head on one side and on the other hand, as it were, have a mother as a head, or with it on both sides Nuts are provided. According to the invention, such screw bolts are then additional provided with a cover made of elastically deformable material. After preferred Embodiment of the invention surrounds the envelope made of elastically deformable material the shaft and the heads of the chemical anchors on all sides. This has the advantage that for Neither does the production of the composite anchors of multilayer concrete slabs according to the invention Austenitic materials can be used. These experience namely through the envelope made of elastically deformable material provides adequate protection against corrosion. This applies in any case, regardless of whether the cover is made of elastically deformable material made of rubber or plastic. According to a preferred embodiment, there is by the way, they are made of soft polyvinyl chloride. In general, the envelope has elastically deformable material has a thickness that is about 1/4 to 1/2, preferably 1/3 of the shaft diameter.

In the case of a multi-layer concrete slab according to the invention, it is more sufficient Verbund through the in the manner described arranged or molded Heads ensured when the shear connector with its sheath is made of elastically resilient Material concreted in the reinforced concrete outer plate or in the reinforced concrete inner plate with their heads up to about the middle of the plate or even above it should extend beyond, but it can at least be useful for assembly, to make the arrangement so that the shear connectors on one or both sides a BeSestigangsvorrichtung have and thus to reinforcement parts of reinforced concrete inner plate and / or reinforced concrete outer plate are connected. In the simplest case, the fastening device is a clamping bracket that allows clamping to a reinforcement mat made of reinforced concrete outer slab and / or reinforced concrete inner slab. These clamps are designed to be elastic, that the function of the shear connector is not impaired.

The advantages achieved by the invention can be seen in the fact that in the case of a multilayer concrete slab according to the invention, a sufficiently flexible one Bond between reinforced concrete outer plate and reinforced concrete inner plate can be easily produced is. It is possible to work with a few chemical anchors. Additionally Composite anchors of other designs can also be used. Permanent deformations occur on the shear connectors according to the invention even under extreme loads not on, because on the one hand the shaft with the molded heads in terms of statics rigid is and on the other hand sufficient the envelope made of elastically deformable material Causes compensation.

It is particularly advantageous that the bond between the envelope made of elastically deformable material and subsequent concrete, even if it is displaced or deformations between the reinforced concrete outer plate and the reinforced concrete inner plate will be annulled. Of particular advantage is the fact that in an inventive Multi-layer concrete slab is also elastic in the axial direction of the composite bolts Deformation play between reinforced concrete outer plate and reinforced concrete inner plate possible isto This reduces disruptive shear stresses and shear stresses and gives therefore the composite in a multilayer concrete slab according to the invention is extreme Lifespan.

In the following, the invention is therefore based on only one embodiment Illustrative drawing explained in more detail; They show: FIG. 1 in perspective Representation of a multilayer concrete slab according to the invention, FIG. 2 in opposite 1, greatly enlarged, shows a section in the direction A-A through the object according to Fig. 1> 3 shows the shear connector on the scale of FIG the object according to FIG. 2 with an associated reinforcement part and FIG. 4 shows a longitudinal section by the connecting bolt of the object of FIG. 5.

The multi-layer concrete slab shown in the figures consists from a reinforced concrete outer plate 1, a reinforced concrete inner plate 2 and an intermediate insulation layer 5.

The latter is made of foam, for example. Reinforced concrete outer plate 1 and reinforced concrete inner slab 2 are elastically resilient, in the concrete Reinforced concrete outer slab 1 and reinforced concrete inner slab 2 embedded in concrete 4 united. The shear connectors 4 extend through the intermediate insulation layer 3. They have simply pushed through them or penetrate them with the help of .ous openings that have been introduced into the insulating intermediate layer 5x Shaft anchors 4 are rigid composite bolts made up of shaft 5 and widened heads 6 executed. By means of a casing 7 made of an elastically deformable material, these are Shear connector 4 essentially orthogonal to the plane of the multi-layer concrete slab inhie reinforced concrete inner plate 2 as well as in the reinforced concrete outer plate 1 has been embedded elastically. It is the one shown and preferred Embodiment around an all-round elastic bedding in the sense of statics with all related benefits.

In particular from the sectional figure 4 it can be seen that in the embodiment and according to a preferred embodiment of the invention, the widened heads 6 the shaft 5 are integrally formed. In principle, however, one could also use nuts as heads 6 place on screw bolts. The envelope 7 made of elastic material surrounds the shaft 5, with the heads 6 of the shear connector 4 on all sides. Incidentally, recognizes one from the already mentioned sectional figure that the envelope 7 has a thickness, which makes up about 1/4 to 1/2, in the exemplary embodiment 1/3 of the shaft diameter.

The casing 7 surrounds the shear connector 4 according to the invention, multilayer concrete slabs all-round. In principle, an additional fastening device 8 Be encased,. Which is especially. In Fig. 3 can be seen. In the exemplary embodiment it is however, free of such a covering. The fastening device serves to the shear connector 4 on the reinforcement 9 of reinforced concrete inner slab 2 or reinforced concrete outer slab 1 to attach. in the Embodiment that happens by bare Clamp on, including the fastening device 8 from a correspondingly shaped spring bar consists.

The arrows entered in Fig. 1 make it clear that in a fiction, according to multilayer concrete slab with elastic deformation of the envelope 7 the shear connector 4 defined relative movements between the reinforced concrete inner slab 2 and reinforced concrete outer plate 1 are possible.

In this way, disturbing tensions are reduced, for example due to different thermal expansions and the like. Can occur. Nonetheless the relationships are statically precisely defined because the permissible deformation paths are known and strictly adhered to. -Not shown that a multi-layer concrete slab -nben the shear connectors 4 can also have other shear connectors that are used for Absorption of the forces are specially set up.

Claims (5)

P a t e n t a n s p r ü c h e: Multi-layer concrete slab made of reinforced concrete outer plate, reinforced concrete inner plate and intermediate insulation layer, with reinforced concrete outer plate and reinforced concrete inner plate united by means of elastic, flexible bonded anchors embedded in the concrete which extend through the intermediate insulating layer, characterized in that that the shear connector (4) as a rigid composite bolt from the shaft (5) and widened Heads (6) carried out and by a sheath (7) made of elastically deformable material essentially orthogonal to the plane of the multilayer concrete slab in the reinforced concrete outer slab (1) and are elastically embedded in the reinforced concrete inner plate (2). 2. Multi-layer concrete slab according to claim 1, characterized in that that the widened heads (6) are molded onto the shaft (5). 3. Multi-layer concrete slab according to claims 1 and 2, characterized characterized in that the sheath (7), the shaft (5) and the heads (6) of the shear connector (4) surrounds on all sides. 4. Multi-layer concrete slab according to claims 1 - 3, characterized in that that the envelope (7) made of elastically deformable material has a thickness, which makes up about 1/4 to 1/2, preferably 1/5 of the shaft diameter. 5. Multi-layer concrete slab according to claims 1 - 4, characterized in that that the shear connector (4) have a fastening device (8) at least on one side and thus to reinforcement parts (9) of reinforced concrete outer plate (1) and / or reinforced concrete inner plate (2) are connected.