DE1206567B - Multi-storey building made of precast concrete parts and a wall panel for this building - Google Patents

Description

Multi-storey building made of precast concrete parts and a wall panel for this Structure When erecting multi-storey structures made of precast concrete elements under Use of blackboards is particularly difficult to construct flawless but simple design of the nodes.

In an already known supporting structure, pillars are made of precast concrete parts used, which run through two floors. The foot points of two neighboring ones The columns are each offset by one storey, the beams are between two continuous columns and absorb an intermediate column joint. the Supports and the joists form compartments in which the blackboards sit. By this already known training of the. The supporting structure is the number of types of Precast parts reduced. It is also the number of joints between supports and beams are reduced in size, even if this increases their structural design is not simplified. In particular, the ends of the individual prefabricated parts must be extremely Be made to fit precisely because dimensional tolerances are not compensated in other ways can be.

In the known supporting structure for multi-storey buildings, all loads of a vertical grid field are absorbed by the support. In the case of multi-storey buildings in particular, however, the column loads on the individual floors are very different. If the supporting structure is now to be economical, the column cross-sections must be dimensioned differently according to the loads involved. This not only leads to an unpleasant increase in the number of types for the prefabricated parts, but also changes the clear width of the compartments that remain visible on the facade under certain circumstances. This is unacceptable from an aesthetic point of view and would also make the use of blackboards of the same dimensions impossible. In the already known support structure for multi-storey buildings, the wall panels are pushed into the individual compartments after the supports and beams have been installed, which is difficult and not without dangers in particular with large wall panels because of their weight.

Also known are structures in which between floor-to-ceiling wall panels the ceiling support elements are pushed in. But difficulties arise in this case when connecting the individual parts, and these buildings also lack the z. B. for aesthetic reasons for facade structuring often desirable supports.

The invention is accordingly based on the objective to create a Tragkonstraktion using continuous with equal strength supports and wall panels, at which the formation of the nodes is safe and easy and equips the safe installation even heavier wall panels overall.

The solution to this problem is according to the invention that in a multi-storey building made of precast concrete with floor-to-ceiling wall panels, -which between two load-bearing wall panels arranged one above the other, ceiling support elements are inserted between slender supports, the joints of which are approximately in the middle of the Floor heights are, wall panels are used, which are rectangular above and below Have recess and with the left standing on both sides of the recess, one half of the ceiling beam height corresponding length approaches placed one on top of the other are that in the cavity formed by the recesses, the ceiling beams with their Engage ends and that each ceiling beam, wall panels and support through in the wall plane extending tendons are connected.

The structure designed in this way has the advantage that the assembly of the prefabricated parts, which is done dry, is very simple, but still a secure connection of the Items is achieved. In addition, the supports can be made slim throughout because the loads on the structure are essentially absorbed by the wall panels will.

The blackboards can not only be solid. In order to achieve a lower wall weight, the wall panels preferably consist of a load-bearing frame which is formed by supports and bars, the ends of the supports forming the approaches. The supporting frame can be filled with light fillers in a known manner or covered on both sides. Depending on the static requirements for the load-bearing frame's crack resistance, more than two transoms can be provided per wall panel.

It is advisable to keep the wall panels narrower than the clear width between two supports in accordance with the dimensional tolerance appropriate for their material and type of production. This makes it possible to lower even large or heavy wall panels hanging from the crane without difficulty from above between two supports. While still hanging on the crane, the blackboard can be brought into its final position. The small space between the wall panel and the column is filled with fitting strips of different thicknesses.

The advantage of assembly is that it has a WancI board. or you can start with several wall panels at the same time, walls standing at right angles or parallel to one another can be stiffened by temporarily drawn-in ceiling beams so that if the assembly is interrupted, the building is not endangered by sudden gusts of wind. All node connections can be implemented as single-axis or two-axis connections at each connection level. When using two-axis connections, there is the additional advantage of assembly that the front connection axis is used for the frictional connection of the support to the projections of the wall panels in both the upper and lower connection levels, while the rear connection axis is used independently of this to connect the later drawn-in ceiling beams Blackboard and support is used, In the drawing, an embodiment of the invention is shown schematically. It shows Fig. 1 the interior view of part of a building outer wall, F i g. 2 shows a horizontal section through the wall according to F i -. 1 after the section line AA, F ! G. 3 shows a vertical section through the wall according to FIG. 1 after the bra cut line.

The interior view of part of a building outer wall ( FIG. 1) shows in the upper half a solid wall panel 1 with its four attachments Z and in the lower half a wall panel 3 with the supporting frame made of supports. 4 and bars 5. The slim supports 6 run between two wall panels arranged next to one another, the joints 7 of which are on different floors. The ends of the floor beams 8-en lie either on top of or on the massive Wandtafeli obQren on the latch 5 of the Wandt.afel. 3

(G F i. 2) in the horizontal section are provided on the outer side of an outer wall of the cover plates 10 to sgliert that, hover ihreri all sides übers.tehenden cover strips 11 on the viewing surface, the slender columns 6, wherein the vertical Abdeckplattenstoß 12 by the slender support 6 behind it is covered. In the left junction, the individual prefabricated parts are connected by uniaxial connecting means 13 , while biaxial connecting means 14 are used at the right junction. A fitting strip 15 is inserted at the right node to eliminate a dimensional tolerance.

In the vertical section through an outer wall ( FIG. 3) , the joint of the slender support is achieved, for example, by offset 16 . The horizontal cover plate joint 17 is sealed by a cover profile 18 located behind it, on which the protruding cover strips 11 slide. In the lower half of the drawing, the protruding cover strips are provided with a water-repellent profile 19 . The free part of the flea space located behind it at ceiling height is filled with insulating material 20, for example.

Claims (4)

1. A multi-storey building made of prefabricated concrete parts with storey-high wall panels, wherein überemiander between two spaced supporting wall panels, the Deckentragelemexite are inserted, characterized in that approximately between slender columns (6) whose bumps (7) in the middle of the floor heights, wall panels ( 1, and 3) are used, which have a rectangular shape above and below, recess and with the two sides of the recess remained new, one of half the ceiling beam height corresponding to the length corresponding approaches (2) are placed on top of each other that in the of the Recesses formed cavity, the ceiling girders (8) engage with their ends and that respective ceiling girders, wall panels and supports are connected by tension members running in the plane of the wall. 2. Structure according to claim 1, characterized in that -pitting inaccuracies by inlaid. Fitting strips (1.5) are balanced, 3. Wall panel for a building according to claim 1 or 2, characterized in that it has a supporting frame formed by supports (4) and 'bolts (5) , the ends of the supports forming the approaches . 4. Waud panel for a building according to claim 1 or 2 or according to claim 3, characterized in that it has an outside. Has cover strip (11) protruding on all sides. Considered publications: Deutsche PatexitschriftNr. 1054, 227 British Pat. No. E22 344. USA,: - Patent No. 2,139,623.