DE1658985A1 - Node formation in multi-storey skeleton structures made of prefabricated reinforced concrete parts - Google Patents

Description

K n, ortpunktsausbi 1 d and multi-storey S ke 1 ettbauten aus S tah 1 concrete - F ertit ei 1 en Multi-storey skeleton structures made of prefabricated reinforced concrete parts are known to consist of support beams $ binders, Rieeelng Ceiling panels and panes (wall and ceiling panes). In such skeletal structures, the training is the Connections in so-called junction difficult. It is about around the connection in the vertical axis between the upper and lower supports and in the two horizontal valley axes between the beams or other components the supports. As is well known, these nodes were resolved as follows: 1. Columns running through all storeys with storey wise attach brackets to support the attached ing beams or other components. The application of this Systems takes place in the transport and assembly options the supports their granse. 2. Gaschossweise raised supports with attached consoles for the beams to be connected, etc. in the case of articulated Formation of the animal feed. 3 .. Double pillars through all floors continuously or one-story wise gestures with bars for uniaxial connection of Bars etc, The majority of i. and 2. are a lessening of the clear rise through the consoles protruding into the room, little the appearance of the rooms, made difficult by the consoles Manufacturing, difficult performing and aligning in the Hontage, at 3, the visible consoles are omitted, however the column profiles became disproportionately wide. One way of creating a spatially stable system is to create rigid nodes. With the known technical possibilities of reinforced concrete precast construction, this is only special. Effort possible (see also Konez: "Handbuch der Fertigtell-Bauweise", Bauverlag GmbH, 1962 Wiesbaden, p. 379 ff ) .

Because of these difficulties, skeletal structures made of prefabricated reinforced concrete are often designed as joint systems according to the static system. Ceiling and wall panels are then required to create room stability. Difficulties arise here when connecting the Uand disks to the ceiling disks. In addition, the wall panels require additional extensive foundation work.

In industrial construction, a mixture of steel and reinforced concrete components is often desired for technical and economic reasons . Previous prefabricated constructions exclude such possibilities.

The invention provides for an exchange of the headpiece of these supports, namely in the area of the junction by a supporting steel profile adapter with the supports of reinforced concrete prefabricated parts. A steel plate is provided at the column base. This allows the connection 4 of the supports in the vertical Axis in the namely articulated or rigid can be carried out by% screwing or 1 / welding. The steel profile intermediate piece enables the steel construction closure of beams or other components in both horizontal directions Axis directions. Components made of reinforced concrete, steel or other building materials can be connected. The connection of the Beams or other structural elements can be articulated or rigid are executed. The steel profile adapter and the Steel base plates enable the connection of steel framework Windverb JL ends. The Stahlprifil intermediate piece allows steel construction-related connection of steel consoles for balconies, Craneways and air carriers. Based on the design shown in the figures Examples, the invention is explained in more detail below. In Fis. i is the head piece of the pre-fabricated reinforced concrete column a skeleton structure in the area of the junction through a Steel profile spacer replaced. In the column base of the A steel plate is provided for the precast column. In the The top plate of the steel profile adapter are holes and There are screws in the base plate. In Fi et it is the connection of an upper precast column shown with eter lower by screwing. 7-: 66, w, b, * I: e; e. The connection of reinforced concrete prefabricated beams takes place according to Fig. 3. A steel bracket is screwed to the steel profile intermediate piece for this purpose. A steel spike is provided in the upper edge of the plate to lock the reinforced concrete partial beam. .

For the rigid construction of the nodes, as shown in Fig. 4 shows to the Fuc @ latt? c'es steel profile spacers "urzelewsen attached:, rei" t, di.2 in the Stahlretontiil: ier SttzA -: it: '@ af tläne itineinr @ :, en.

Steel tension and pressure pieces are placed in the top and bottom of the beam built-in, which: screwed or welded to the steel profile spacer can be.

Fig. 5 time the four-sided connection of beams made of reinforced concrete or Steel to the steel profile spacer. Fig. 6 shows the stop at the external supports Steel wind braces connected to the steel profile spacer. Fig. 7 shows the connection of a steel bracket for balcony support to the steel profile hissing piece.

Fig. 9 shows the steel profile end head piece of the uppermost storey support for the support of trusses.

Fig. 1o shows the screwing of the foot slats of the lowest support to the foundation.

If, for technical or economic reasons, it is necessary to replace the reinforced concrete elements with steel elements , this can be done in a simple manner, as FIG. 5 shows.

Claims (1)

-P at e ntan sp r ü ch e 1. Multi-storey skeletal structures, in particular a reinforced concrete Fartigteilkonstruktion, characterized in that since $ in the region of the nodal point on Stütsenkopf a piece of reinforced concrete LOPS by a supporting steel profile intermediate piece with one of the stress corresponding strength anda piece of the column base is replaced by a steel plate so that the columns in the vertical axis and the beams or other components in the two horizontal axes and any components in all levels can be connected in an articulated or rigid manner in terms of steel construction (steel brackets, screws, welds). The columns, beams and other components can either consist of reinforced concrete, steel or other building materials. A mixture of elements made of different building materials can also be connected to the junction. 2. Multi-storey skeleton construction according to claim 1, characterized in that the steel profile intermediate piece can be designed as a rolled profile or as a composite cross-section. 3. Multi-storey skeleton construction according to claim 1, characterized in that the steel profile intermediate piece absorb all normal, transverse forces and moments from the subsequent supports, beams or other components and the like support parts adjoining the steel profile spacer further # lleiteiksswdew can. 4. Multi-storey skeleton construction hach claim 1, characterized in that pins, beams or other components can be connected rigidly in three axes to the steel profile-Zwischenstilck. 5. Multi-storey skeleton structure according to claim 1, characterized in that supports, beams or other components can be connected in an articulated manner in three axes to the steel profile intermediate piece. 6. Multi-storey skeleton structure according to claim 1, characterized in that supports, beams t4nd other components in three axes can be connected to the steel profile intermediate piece either rigid or articulated. 7. Multi-storey skeleton structure according to claim 1, characterized gekdnnzeich that to the steel profile intermediate piece Columns, beams or other components in three axes Any of Stah1T reinforced concrete or other building materials can be connected. 8. Multi-storey skeleton structure according to claim 1, characterized marked. because the steel profile gwischenstüak is so long is provided as & steel consoles for Aufiagirung of precast beams can be arranged. 9. Nehrgsschoasige skeleton structure according to claim 1, characterized marked da & the steel profile intermediate piece required oak trap is so long. there, the stop of the upper one Support upper top of vtboden because ffl> succumbing Ge # Chmes ans «ohloi« n willon came * lo. Nutrient-storey skeleton construction Lach claim i, thereby marked da # on the steel profile -Zwisehenetüok Stahlfaehmerk wind braces can be connected. 11. Multi-storey skeleton network to Am ruch l # daduroh f ok, sunday there & to the steel profile Zwie: genstflek consoles for beams, crane runways. Line carriers are connected can. 12. Multi-storey skeleton structure according to claim 1, characterized marked that in the footplates of the overlying Support and in the head plates of the Devices are arranged that have an articulated or allow flexible connection. 13. Multi-storey skeleton structure according to claim 1, characterized in that the foot plates of the supports are designed so that they can be connected to the foundations in an articulated or rigid manner. 14. Multi-storey skeleton construction according to claim 1, characterized in that the head piece of the supports of the last floor are formed by a steel profile end head piece. 15. Multi-storey skeleton structure according to claim 1, characterized in that the steel profile intermediate piece can, if necessary, be encased in a fireproof manner with reinforced concrete prefabricated fitting pieces. y.