DE3522382A1 - Steel reinforcement for structural parts - Google Patents

Abstract

The steel reinforcement for structural parts according to the invention consists of sheet metal of thicknesses up to those in which sheet metal can be formed, by cold rolling or edging, to give sheet-metal profile carriers (4, 5, 16, 27). The sheet-metal profiles, forming carriers, with one to a number of U-shapes, or a trapezium shape (17) to a V-shape, are embedded, at least by means of the perpendicularly running legs, in the mortar composition (7, 20, 29). <IMAGE>

Description

The invention relates to steel reinforcement for components, in especially for gas concrete slabs, which are used as ceiling, floor or wall elements can be used.

As is well known, gas concrete is a building material in terms of heat insulation, density, fire resistance and an whose advantageous properties are a high-quality building material.

The low pressure and resulting from the material structure However, tensile strength of the gas concrete is when used as load-bearing ceiling, floor surface or wall element with side printing a disadvantage and requires relatively thick material cross sections with multi-layer structural steel reinforcement with limited load-bearing capacity due to the fact that it is made of structural steel rods under load outgoing surface pressure absorbed only to a limited extent by the gas concrete can be.

The object of the present invention is a steel reinforcement, especially for gas concrete slabs or other lightweight materials with low tensile strength and compressive strength.  

The invention task is solved in that the Stahlbe reinforcement made of essentially single or multiple U-shaped to v-shaped sheet metal profiles, which as Profile beams arranged in parallel at intervals and are enclosed by the mortar.

The individual profile beams can be which also serve as spacers with each other be connected. Are these cross connections at the top and lower edges of the profile beams are arranged, then forces are also absorbed in the transverse axis, the transverse Connections can also be designed as U-profiles can.

The idea of the invention is that at u-shaped or V-shaped sheet metal profiles, which are completely in of the concrete mass are included, the section modulus the beam profiles is increased significantly because of the concrete filling a lateral buckling of the vertical profile leg prevented.

Due to the large contact surface, the surface pressure is reduced Load relatively low and can vary from the compressive strength of the gas concrete.

In addition, thanks to the multiple bends as a U-profile considerable pressure loads are also absorbed.

Over the surfaces running parallel to the plate level the profile beam becomes the profile depending on the spacing carrier largely penetrates the plate surface and thereby the surface strength increases.

Based on this idea of the invention, numerous are out possible, but the application is not on gas concrete or slab production is restricted.

In an embodiment of the invention, the edge profiles can plate production with one over the side of the plate protruding hook fold, in which the plates can be mutually connected when laying.  

Plates produced in this way can also be used for the ent speaking purpose for example at the sub Attach side for wallpaper or as a structured ceiling and on be coated on the top as a floor covering support.

The plates can also be used as a special purpose on both sides or on one side with a fire protection covering or Be painted, which at a Temperaturer elevation forms a fire-retardant and insulating foam or releases chemically bound water and thus the inherently high fire resistance, for example Gas concrete is still increased.

In a further embodiment of the invention, coated the support profiles on the underside of the installation Ceiling plates are attached, which in a ceiling Position at the construction site with in-situ concrete as a circuit for the serve concrete to be applied and at the bottom a form finished blanket.

Further advantageous embodiments of the invention are in the following description with reference to the drawing tion of preferred embodiments explained in more detail and characterized in the subclaims.

Show it:

Fig. 1: ceiling panels in perspective in cross-section with a view of the end face and the steel reinforcement as a single profile beam

Fig. 2: Ceiling plate representation as shown in FIG. 1 with steel reinforcement as a trapezoidal or triangular shaped profiles as a continuous sheet with openings in the sheet

Fig. 3: Profile beams designed according to the invention with attached formwork panels in the manufacture of an in-situ concrete ceiling

Fig. 1 shows building panels made of gas concrete, which example can be laid as a prefabricated ceiling.

The steel reinforcement 3 according to the invention is visible on the plate face 2 . This consists of sheet metal support profiles 4, 5 , the sheet thickness is statically out and the thickness is limited by the economic Her position of the profiles.

The carrier profiles are advantageously made from a sheet metal strip in a rolling machine in a corresponding roller set cold rolled.

The individual support profile 4, 5 is formed as in the example shown by 10 approximately 90 ° bends forming multiple U-shapes, the vertical or approximately vertical ver surface area of the original sheet metal strip is more than 50%.

Multiple cross-sectional shapes can also be used. It is only important that the relatively small sheet thickness, especially the perpendicular surfaces 6 are prevented from buckling by the surrounding mortar 7 and can therefore absorb high forces.

The individual support profiles 4, 5 can be interconnected by transversely arranged at intervals and for example with spot welding to the support profiles 4, 5 connected flat steel strips 8 , which attached to the underside also take tensile forces in the transverse axis.

At the same time, these cross connections 8 are also spacers for the carrier profiles 4, 5 , so that spaces 9 are kept and a separation of the mortar mass into an upper region 10 and a lower region 10 a is prevented.

The edge profiles 11, 12 are advantageously provided with a hook fold arrangement 13 , so that the plates 1, 14 can be connected together during installation.

The connection can also take place via a U-rail 15 which engages over the hooks 13 .

A steel reinforcement 16 can be seen from FIG. 2, which is formed from a sheet metal plate which forms a mutually opposed trapezoidal 17 or triangular profile 18 .

The legs 19 are provided in the bending-neutral central zone with holes 20 which form connection points for the mortar regions 21, 21 a on both sides.

As can be seen in the plan view of a cut portion 22 of the plate 23 are suitably cross-connected to the extending folding edges 24 in spaced cross connections 25 with the folding edges 24, attached.

These cross connections can be attached to both vertical edges 26 and 26 a of the sheet metal profile plate, whereby transverse forces are absorbed in both directions.

The cross-connections 25 can also be formed out as U-profiles.

In FIG. 3, the application of the steel reinforcement is shown according to the invention in the manufacture of a ceiling at the site.

At several times formed from U-bend sheet metal profile beams 27 , in which the profile 28 is open for the filling of concrete 29 , ceiling panels 30 are fastened on the underside. By lateral folds 31 at the transition from the vertical profile legs to the horizontal profile surface, in addition to the stiffening that can be achieved with it, a positive connection of the concrete filling compound 29 with the filter supports 27 is achieved.

These ceiling panels 30 are preferably gas concrete fabric panels, so-called GFY building panels, which have high strength with a low weight due to coating of gas concrete with glass fiber and binder.

The ceiling panels 30 , which can be formed as tongue and groove joints at the joints for sealing, form the formwork for the concrete to be poured on ( 29 ) and at the same time form a 32 ceiling surface ready for plastering from below.

The inventive use of the sheet metal profile support 27 in the manufacture of a ceiling means that little steel is required, because with perpendicular sheets, which are prevented from buckling, high forces can be absorbed, a reduction in the cost of ceiling manufacture is achieved.

In the manufacture of a ceiling according to the invention at the construction site, in addition to saving steel, there is no need for a concrete-tight formwork, because only a point support of the ceiling is required until the concrete 29 has hardened, and the considerable advantage of a two-layer ceiling, the underside of which provides the high insulation value of the Has gas concrete and the load-bearing part consists of cement concrete 29 . Ready-made ceiling panels can of course also be produced in this way.

Ready-made panels are particularly useful appropriately coated during manufacture.

For example, in the case of slabs for the manufacture of ceilings, the top can be designed as a floor covering support 33 and the underside, for example, as a structural ceiling 34 , or both sides can be coated with known fire protection materials 35 .

Claims (15)

1) Steel reinforcement for components, including sheet metal profiles up to sheet thicknesses, such as the sheet can be cold rolled or folded, characterized in that the steel reinforcement ( 4, 5, 16, 27 ) from simple to multiple U-shaped, trapezoidal ( 17th ) to V-shaped ( 18 ) edged sheet metal beams ( 4, 5, 17, 18, 27 ), which are enclosed in the mortar mass ( 7 ) at least with the vertically extending legs ( 6 ). 2) steel reinforcement according to claim 1, characterized in that the sheet metal profile beams ( 4, 5 ) are arranged parallel to each other via intermediate distances ( 9 ). 3) Steel reinforcement for components according to claim 2, characterized in that the sheet profile support ( 4, 5, 16, 27 ) are connected to one another via cross connections ( 8, 26 ) attached on one or both sides. 4) steel reinforcement for components according to claim 3, characterized in that the cross connections ( 8 ) are designed as profiled sheets. 5) Steel reinforcement according to claim 1, characterized in that the steel reinforcement ( 16 ) is formed from a coherent mutually opposite trapezoidal ( 17 ) or triangular profiles ( 18 ) forming sheet metal plate. 6) steel reinforcement according to claim 5, characterized in that holes ( 20 ) are provided in the legs ( 19 ) in the bending-neutral central zone. 7) Steel reinforcement according to claim 6, characterized in that transverse connections ( 25 ) connected to the buckling edges ( 24 ) are attached at intervals at right angles to the buckling edges ( 24 ). 8) steel reinforcement according to claim 1, characterized in that the edge profiles ( 11, 12 ) with a Hakenfalzanord voltage ( 13 ) are provided. 9) steel reinforcement according to claim 8, characterized in that the interconnection of the plates ( 1, 14 ) via a on the hook ( 13 ) attached U-rail ( 15 ). 10) Steel reinforcement according to claim 1, characterized in that on multiple formed from U-fold sheet metal profile beams ( 27 ), in which the profile is open at the top ( 28 ), ceiling plates ( 30 ) are attached to the underside. 11) Steel reinforcement according to claim 10, characterized in that lateral flanges ( 31 ) are attached to the sheet profile supports ( 27 ) at the transition from the vertical profile legs to the horizontal profile surface. 12) steel reinforcement according to claim 11, characterized in that the ceiling panels ( 30 ) consist of gas concrete, which are coated with glass fiber and binder on the surface. 13) steel reinforcement according to claim 10, characterized in that the ceiling panels ( 30 ) can be formed at the joints as a tongue and groove connection. 14) Steel reinforcement according to claim 1, characterized in that a ceiling or slab for ceiling production is made in two layers on the underside of gas concrete material and on the top as a supporting part as a cement concrete ( 29 ) with the reinforcement ( 27 ). 15) steel reinforcement according to claim 1, characterized in that plates thus produced are coated on one side or on both sides especially for the intended use ( 33, 34, 35 ).