DE2156140C2 - Supported reinforced concrete ceiling - Google Patents

Description

45

The present invention relates to a reinforced concrete ceiling supported on pillars, preferably on hollow pillars still to be filled with in-situ concrete, which is formed by prefabricated, permanent formwork panels made of concrete with cast-in ceiling reinforcement and in-situ concrete applied to the formwork panels, with four formwork panels abutting with their corner areas above each support and each formwork panel having a formwork panel extending out of it into the in-situ concrete layer and above the support brace. has rich punching shear reinforcement.

In reinforced concrete ceilings of this type, which are assumed to be known, the punching shear reinforcement anchored in a formwork panel runs over the column cross-section to the edge area of the formwork panel opposite this formwork panel and ends there a few centimeters above its top. The full static usable height is not used. Even with such a waiver, however, it is difficult to implement the punching shear reinforcements of the formwork panels meeting in the area of a support over the support into the loading area of the respective opposite formwork panel. The resulting spoilage of the reinforcement of the formwork ^ '.-.' ■ - isi when the formwork sheet is set down !! am,: ie the end faces of the supports at least of a crane or ... L; '. obstructive.

It is close to the present invention. To form a ceiling of the type mentioned at the beginning, the Din \ ¹ ! - stan / reinforcement using the full height of the mash groove so that the formwork can be laid in a rational manner by avoiding obstructive reinforcement.

According to the invention, this is achieved by d · ■ ::. the punching shear reinforcement runs over a corner and m 'both ends approximately parallel to the <.w. \ corner area / wipe each other; !! Platien integrates roughly into the formwork panel.

Due to the construction of the reinforced concrete ceiling mn, the invention is achieved that the punching shear reinforcement not over the pkilted edges of the formwork panels protrudes into the area of adjacent formwork panels. A hindrance to a rational laying Reinforcement meshes are thus avoided. In addition, by integrating the ends of the Punching shear reinforcement in the formwork panel ensures that the full static effective height is used. Because the reinforcing bars of the punching shear reinforcement that run across corners within the column area enforce the punching cone of the support is a structurally advantageous arrangement of the Punching shear reinforcement possible in a simple way.

In a preferred embodiment of the reinforced concrete slab according to the invention, parts of the field reinforcement of the shuttering panel are led out in the site-mixed concrete in order to form the punching reinforcement, the corner region therebetween enclosing plate edges extends along the two, at least one reinforcing bar pair, which approximately in the example of the l, 2-fold later slab thickness D corresponding distance from the column outside by about 60 " bent out of the slab plane upwards and below the final slab top again into a horizontal plane, but bent laterally by 45 ° to its previous direction of extension in the formwork panel towards the adjacent slab edge .

As is known from experiments, the inclination of the fracture crack of a punching cone compared to the Horizontal with a support about 30 °. At an angle of 60 ° for the direction of extent of the Bars of the punching shear reinforcement with respect to the horizontal thus extend the bars of the punching shear reinforcement 8 perpendicular to the possible fracture crack surface, so that this results in an optimal reinforcement guidance of the punching shear reinforcement.

To achieve a spacing of the rods that is essentially the same over the entire length of the extension of the pair of reinforcing bars, it is advantageous to bend them out of the formwork panel in a staggered manner.

An embodiment of the invention is shown in the drawing. It shows

F i g. 1 in plan view the assignment of a number of permanent shuttering panels of a ceiling to the Supporting a structure,

F i g. 2 a perspective view of the main reinforcement routing of the ceiling on the basis of a single column connection and

Fig. 3 is a plan view of the pillar connection cemah Fig. 2. wöbe, only lic Beuehrui ^ slührun " the punching shear reinforcement of a shuttering panel is shown. "

In Fig. 1 there are a number of shuttering panels 4 shown with their four corner areas on im present case rectangular or square nozzle 2 rest. Lim a corresponding den Ilohl cross section of the supports 2 not overlapping To reach Autlage, the formwork panels are cut out at right angles in the area of their corners. From the top of the formwork panels 4 and the supports 2 protruding reinforcement is the clarity for the sake of FIG. I have been left out.

In F-ig. 2 is a perspective view of the Arrangement of a total, 'egg formwork sheet !! ^ im Shown near the end face of a support 2. the Reinforced concrete ceiling is shown in a construction phase. in which those forming the underside of the ceiling Formwork panels 4 with protruding reinforcement parts on the top of the face Support 2 are placed. The in-situ concrete layer necessary to complete the final ceiling is only hinted at. In the present embodiment, the support 2 is a Hollow column with a roughly square cross-section, which is later filled with in-situ concrete.

For the sake of clarity, the reinforcement of this support 2 is not shown in FIG. 2 shown.

As can also be seen from FIG. 2, the formwork panels rest on the end face of the support 2 4 with their corner areas 3 in such a way that the clear cross section of the support 2 is not covered. In the present exemplary embodiment, the support width of the underside of the shuttering panels 4 is on the face of the support 2 about one centimeter.

The shuttering panels 4 are equipped with a field reinforcement, which for the sake of clarity in Fig.:. is not shown. As an example of a shear reinforcement, a lattice girder is arranged in one of the three formwork panels 4 adjoining the support 2, the lower chord of which is cast into the Sch! Miüspkitte 4! and with his ob: gi.rt as well as his the upper belt with the lower «·. connecting diagonals from the Shahingspla '.; ■ protrudes. Since in the present exemplary embodiment, a ceiling without support is to be created. . »S from the top of the formwork ^{panel J aul 1} that in AhMünden the upper ends of the bracket.,

ίο which together with in the present Aus! ■., ·. riingsheispiel paired Bewehrim-j rods 7 BEWE · iniii the door decl'engleichen ■ terzüge form.

The passage 8 is in the present case, Case from each one pulled out of the upper side of a Seh,: Iungsplatte4, as field reinforcement for the reinforcing bar pair 9 g ^ which encloses the corner area between them and serves the plate edges forms by the pair of reinforcing bars9 in the cornerK rich of the formwork panel by 45 to its possible first: cornering in the formwork panel is bent laterally in the direction of the adjacent plate edge. Thus, the Punching reinforcement S only around the corner of the borrowed

th cross section of column 2.

After the shuttering panels 4 have been placed in the intended position on the end face of the support 2 are, the in-situ concrete 10 is first in the clear cross section of the support 2 and then on applied to the top of the formwork panels.

In Fig. 3 is to illustrate the extent to which the punching shear reinforcement 8 is cornered within the column area runs, a simplified plan view of the embodiment shown in Fig. 2 is shown.

It can also be seen that the reinforcing rod pair 9 of the plate edges of the formwork panel 4 to form the punching shear reinforcement 8 is staggered at a distance A from the outside of the support 2 from the top of the formwork panel 4, which is about 1.2 times later Ceiling thickness D (Fig. 2) corresponds.

1 sheet of drawings

Claims (3)

Patent claims: 1. On supports, preferably with in-situ concrete Hollow Stiit / s to be filled in autV.elaaerte Reinforced concrete ceiling, the \ on - ^ manufactured, permanent formwork panels au ·· licton with cast basin bracket and on the formwork panels applied in-situ concrete is formed. with four formwork; o panels abut with their corner areas and each shuttering panel one from it into the in-situ concrete layer hot executed and over the Siüiz.enbereich running punching shear honing, thus ü e k e η η ζ e i c η net. that the punching exposure (8) runs over tick \ and with your two hands almost parallel to the corner area (3) between you Integrates the board edges into the formwork sheet (4). 2. Reinforced concrete ceiling according to claim 1, in which to form the punching shear reinforcement parts of the field reinforcement of the shuttering panel are led out into the in-situ concrete layer, characterized in that along the silk the corner area (3) between the enclosing plate edges at least one pair of reinforcing bars runs approximately in one of the 1.2 times the distance (A) from the support, corresponding to the later ceiling thicknessc (D); on the outside, bent upwards by about 60 from the plane of the slab and below the final ceiling top again into a horizontal plane, but 45 to its previous direction of extent in the Formwork panel (4) is bent laterally in the direction of the neighboring hard panel edge. 3. Reinforced concrete ceiling according to claim 2, characterized in that the bars of the reinforcing bar pair staggered from the formwork panel (4) are bent out upwards.