DE7018445U - MULTI-LAYER CONCRETE SLAB. - Google Patents

Description

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May 15, 1997

1993/70

Manfred Körner, 75 Karlsruhe-Durlach, Laniprechts Lraße

Multi-layer concrete slab

The invention relates to a multi-layer concrete slab, consisting of a load-bearing reinforced concrete slab as the inner layer, a relatively weaker facing plate as the outer layer and at least one there-

7018 ^ 5-8.10.70

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between arranged insulating layer made of foamed Plastic or the like, the ends of the insulating layer reaching through into the facing plate or the inner plate Connection needles are embedded.

Such multi-layer concrete slabs, which are widely used in construction are exposed to different forces. The weight of the facing plate leads to shear forces between the two plates, which by generally in the range “These composite anchors are therefore primarily Exposed to tensile and compressive forces. Since these chemical anchors are only arranged in the area of the center of gravity, there is a risk that the plates will gape apart, especially in the edge area, which on the one hand is caused by thermal expansion, on the other hand can be caused by wind suction forces. To prevent this from happening, at least the outer edge area, but also in the area of door and window openings Ends are embedded on the one hand in the facing plate, on the other hand in the load-bearing inner plate. These compound needles Not only do the wind suction forces acting on the faceplate need to be applied, but also those caused by the exposure to high temperatures Discharge occurring distortion forces from the facing plate into the load-bearing inner plate.

In the case of these multilayer concrete slabs, there is a possibly considerable temperature difference between the facing slab and the supporting inner slab, especially when exposed to sunlight. This leads to different elongations of the facing and inner panels

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The facing plate therefore always moves in relation to the inner plate. The connecting needles must be in the area of the "from him?" ^f Jurch g Γ i ffcpf "T sol i.firschicht be designed crenüsrend flexible, ie to give in to these movements without damage · This bending Softness is the smaller, the thinner the insulating layer is _e This has led, in practice, that the composite nails often kink at the interface between the concrete slab and the insulating layer and consequently can no longer perform the function assigned to them. Up to now, this could only be avoided by using a correspondingly high-quality steel for the compound needle.

The invention is based on the task, a multi-layer concrete slab of the structure described above so that damage to the connecting needles is prevented regardless of the thickness of the insulation layer and almost regardless of the material used will.

This object is achieved according to the invention by a in at least one of the two concrete slabs, preferably in the supporting inner slab, provided »by whose surface adjoining the insulating layer, an axial deflection of the connecting needle in the area of the Recess allowing plate

Because of this, an axial deflection of the compound needle is possible Depending on the requirements, the free bending length can be up to more than twice the usual value

70184A5-R.1Q.70

1993/70

be enlarged so that c.: - "erbundnadel considerably bicgeweicher becomes. As a result, the connecting needles suffer No damage even with a very small thickness of the insulating layer, just as little as with high temperature differences between the facing plate and the inner plate. For these reasons, a comparative find cheaper steel use.

The recess is preferably arranged in the load-bearing inner plate. Since the existing in this plate The clamping length of the connecting needle is greater than in the outer plate, the free bending J.inv; o become comparatively large.

The recess expediently tapers by conical on the outside inwards, so that the shape of the recess corresponds to the bending movement of the connecting needle.

To produce the recess, a slab can be placed on the insulating layer before concreting Serve core. This core is preferably hollow.

The core is prepared Vege of injection molding, it has an opening at its side facing the insulating layer later. In this case it is provided that the core has means for preventing penetration, at least in its open mouth region

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of concrete in its interior _o This can be done in that the core is provided with a flexible plug at least in its mouth area, which does not hinder the bending movements of the free length of the connecting needle.

Instead, the core can also be provided in its mouth area with a flexible or destructible membrane, for example a plastic film or the like being. Finally, in a further modification of the invention, the core can be provided with a when it is placed on the insulating layer in this penetrating, sharp-edged hand or provided with sharp points. By easy Depression into the insulating layer is the cavity in the core opposite the concrete to be applied tightly closed. Since the insulating layer is usually made of foamed plastic, it is plugged in of the core possible without difficulties "

If a separate core according to the embodiment described above is used to form the recess, so the upper face of the core is designed in such a way that it can be easily pierced with the compound needle. So it is first placed the core on the insulating layer and then the connecting needle through the The core and the insulating layer are pressed into the not yet hardened inner panel.

In a preferred embodiment of the invention, the core is designed as a cap placed on the compound needle.

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i '.- · cap is advantageously made of plastic. * · .. · inn either ", vrie already with regard to: the core ge - sc'.ildert, be hollow, or from one flexible material, for example foamed Kunäbsioff exist. In the case of the hollow configuration, it can be used as a shutter for the opening to prevent intrusion von Beton dJ .. <? / basic training as with the one described Core to be hit.

us hat is preferably provided with an edge flange, that when inserting the connecting needle into the insulating layer into the already concreted, but still Unhardened concrete slab rests on the insulating layer. As a result, lcaar, the depth of insertion of the composite nodule and thus the rest of the restraint length in the load-bearing inner panel can be predetermined for the same purpose serves the further measure that the cap on the connecting needle in the opposite direction to the insertion Rxhtung can only be moved to a limited extent. To the limit This displaceability of the cap can be arranged on the connecting needle a corresponding collar. By arranging the collar appropriately and choosing the length of the cap, the free bending length of the connecting needle be predetermined.

Other features, details and advantages of the invention result from the following description of a preferred embodiment shown in the drawing.

The embodiment shown in the drawing of a multi-layer panel or sandwich panel called it consists of a load-bearing reinforced concrete panel 1 as the inner layer, a relatively weaker front panel 2 made of reinforced concrete as the outer layer and an insulating layer 3 in between. The insulating layer can be made of foamed plastic or the like Instead of this or in addition, an air space for internal ventilation can also be provided. ”The facing plate 2, which practically forms the outer facade, is connected to the load-bearing inner plate 1 by means of compound anchors (not shown) , id take virtually saaitliche between the plates effective shear forces due to the inher- ent .:, hi.es the facing plate 2. in addition, zumirdest provided in the edge region of the plate and along the boundary of the window or door recesses compound needles k, only one of which is shown in the drawing. The one end 5 of the compound needle 4 in the bearing inner plate l the other end 6 _t in animal face plate 2 embedded · Di se connector pins serve a Ausei.ianderkla "" en ο ■ "* - to prevent ~ plates and on the face plate ^r "ends wind suction in the supporting inner panel 1 absr-" ~ \ cen ·

Due to the considerable temperature differences between the facing plate, especially when exposed to sunlight and the inner plate 1 result for the facing plate greater temperature expansions than for the inner plate 1 · bei At low temperatures, the situation can be the other way round.

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These different temperature expansions lead to helpful movements between the two plates, to which the connector anchors and the connector needles 4 must yield. For example, the face plate moves relative to the inner panel 1 in the direction of the arrow 7 by the amount 8, the compound needle in the region of their free length 9 is displaced between the two plates by the angle <X from its zero position, "The greatest bending stresses occur in the Area of digits and 1L on. This can lead to kinking of the connecting needle at these points.

9 to zoom dm Uiegelänge free, has the supporting inner panel 1 a recess 12 which runs out of the insulating layer 3 adjacent dor surface lk and an axial displacement of the compound needle k in the region 13 allows. In this way, the free bending length a of the area 9 of the compound needle is increased by the further amount b of the area 13. With the previously described movement of the front plate 2 in the direction of the arrow 7, a die angle ε results which is about half as large as that before

quoted Uiegewinkel (X. The stress at the point and the now fixed clamping point 15 is thereby considerably reduced.

The recess 12 in the load-bearing inner panel 1 can be produced in various ways. Usually, the facing plate 2 is first concreted, then the insulating layer 3 is applied and finally the load-bearing one

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Innciipla t to 1 concreted. Before this inner plate is detonated, the connecting needles 4 are pressed through the insulating layer into the facing plate 2 which has not yet hardened. /, ur tr / cuRunj; the recess Ι'Δ can also serve the insulating layer 3 attachable cores. These are preferably designed or made of a flexible or plastically deformable plastic so that they are dimensionally stable during concreting and can easily be pierced by the connecting needle k, which may be pointed at its end 6. The cores can be attached to the insulating layer Ik in a known manner.

In the advantageous embodiment shown, a cap 16 is provided instead of a core, which is pushed directly onto the composite needle. A compound needle arranged on the collar 17 serves to limit the displaceability · The cap has a wide edge flange 17 by means of which it k When inserting the connector pin into the insulating layer and applying the adapter plate of the insulating layer. The cone can either consist of solid material or be hollow. In this case it usually has an opening 18.

When concreting the inner plate 1, there is a risk that concrete will penetrate the opening 18 and, after solidification, cancel the effect of the recess 12. For this reason , the opening 18 can either be closed with a flexible material, for example by means of a stopper made of flexible material, or by means of a destructible or flexible membrane instead

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1993/70

provided in an advantageous embodiment that the cap 16 in the area of the edge of the opening or in the edge area of the flange 17 has a sharp edge 19 or individual sharp points, üieser hand or the points penetrate into the flexible insulating layer 3 and serve on the one hand to fix the cap l6, on the other hand to prevent concrete from entering opening 18.

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70184Afi-B.in.7n

Claims (12)

DR. ING. HANS LICHTI DIPL.-INg. HEiNER LICHTi PATENTANWÄLTE KARLSRUHE-DURLACHQRÖTZINQER STRASSE 61 TELEPHONE (0781) 4 11 2 * - 11 - G 70 l8 kk5.1 1992/70 Manfred Körner, Karierte 3I. July 1970 HlKWElS: This Unte-Iage (Be Deatedm rert »r.iamt, G« bn »» dii — tleutell «longs for claims 1. Multi-layer concrete slab, consisting of a load-bearing reinforced concrete slab as the inner layer, a weaker facing panel made of reinforced concrete as the outer layer and at least one insulating layer made of foamed plastic or the like arranged in between, the ends of the connecting needles extending through the insulating layer being embedded in the facing panel or the inner panel are, gdcennzeicb.net through an axial deflection (8) of the connecting needle (k) in the area of the connecting needle (k) provided in at least one of the two concrete slabs (1 and / or 2), from its surface (14) adjacent to the insulating layer (3) Plate (1 and / or 2) permitting recess (12). Lj / s -12 - - 12 - 1992/70 2. Plate according to claim 1, characterized in that the recess (12) in the supporting liana plate (l) is arranged. 3. Plate according to claim 1 or 2, characterized in that that the recess (12) tapers conically from the outside to the inside. k. Plate according to one of Claims 1 to 3, characterized in that the recess is formed by a core (16) which can be placed on the insulating layer (3). 5. Plate according to claim 4, characterized in that the core (16) is hollow. 6. Plate according to claim 4, characterized in that gs ^ .iir that the core (16) at least in an open Muzzle area (18) has means for preventing the penetration of concrete into its interior . 7. Plate according to claim 6, characterized in that the core (l6) at least in its Münc * ng. "- area (18) is provided with a flexible stopper. 8. Plate according to claim 6, characterized in that the core (l6) in its mouth area (l8) with a flexible or destructible membrane is provided. Lj / s - 13 - - 13 - 1992/70 9. Plate according to claim 6, characterized in that the core with one in the insulating layer (3) can be inserted, sharp-edged edge (19) or with flocks ^ mushrooms is provided. 10. Plate according to one of claims 4 to 9i, characterized in that the upper end face of the core (IC> ) can be pierced by the compound needle (k). 11. Plate according to one of claims 4 to 10, characterized in that the core is designed as a cap (l6) placed ^{on the composite ring (l} i). 12. Plate according to claim 11, characterized in that that the hat (16) with one of the insulating layers is sufl ^ sudii !! llsndflsnsch (1 * ^) verss ^ en is = 13 plate according to claims 11 and 12, characterized in that that the cap (l6) is limited to the connecting needle (4). 1Ί ♦ plate according to claim I3 characterized in that to limit the displaceability of the grommet (l6) to the compound needle (4) a collar (20) is formed. Lj / s