DE817519C - Connection of the vertical and horizontal construction elements of cast buildings - Google Patents

Description

Connection of vertical and horizontal construction elements of cast buildings The invention relates to a building structure and relates specializes in the connection between vertical construction elements, such as B. walls, columns o. The like., And horizontally lying structural parts, z. B. beams, ceiling tiles o.

Such connections have hitherto been implemented in various ways been. According to a known embodiment, the ceilings, beams or the like. On a Support in the vertical construction parts. Such deposits can be formed, for example, by recesses in the walls. These cutouts are, however, unfavorable as they weaken the walls. The supports can also formed with the help of structural elements protruding from the walls, z. B. Consoles, cantilever belts, etc. The attachment of such supports caused however, various constructive difficulties.

In concrete buildings it is common to have the ceilings in one piece with pour the walls. These Execution, however, also suffers of various? defects. A disadvantage is, for example, that as a result from shrinkage in the concrete later cracks appear. To prevent the formation of such cracks avoid or reduce it, it is necessary to insert special reinforcement for this.

Another disadvantage is that making a good Thermal insulation is difficult. As a result of the good heat-conducting connection between the floor sheaths and the outer walls are sufficient to attach a heat-insulating Clothing on the inside of the outside walls is not.

The disadvantages of the above-mentioned embodiments can be partially be avoided that the ceilings or similar structural parts with the Walls by means of special, z. B. of iron bars o. The like. Existing connecting elements get connected. In this case, the ceilings can be designed in such a way that between the edges of the same .und the outer walls a gap-shaped space is formed in such a way that heat insulating clothing can be attached there that is not interrupted by the ceilings, i.e. extends over the entire inside the outer wall extends.

The present invention relates to a construction of the latter Art. In the known designs of this type, the connecting elements exist of structures that are rigid in the vertical plane and designed and arranged in this way are that they are exposed to tensile, bending and buckling loads. In comparison to these known designs, the construction according to the invention primarily characterized in that the ceilings, beams or similar elements in the walls or other vertical construction elements, such as B. pillars, with the help of appropriately spaced; elongated suspension elements are suspended, which are arranged so that they almost exclusively tensile loads are exposed. The suspension elements are arranged for this purpose in such a way that they are on the outside of the suspended construction part at an angle extend upwards of more than 45 ° to the horizontal plane. In the known versions The connecting elements comprise parts that are essentially horizontal Direction or parts extending from the outside of the suspended structural part extend obliquely downwards.

By hanging from ceilings or other horizontal ones Structural parts, such as B. beams through suspension elements, which are essentially are only exposed to tensile stresses, one achieves that the suspension elements with Much smaller cross-section can be executed than it was with the earlier known constructions is the case. The suspension elements can thus be made relatively thin rods or even wire-shaped reinforcements. Achieved at the same time one can significantly simplify the construction by adding the suspension elements extremely simple and inexpensive to carry out «- can be earthed and attached in a simple manner Way can be done.

The invention is of particular importance for the connection of ceilings in cast buildings with the walls from which the ceilings are to be supported. When using the invention for such constructions, the suspension elements zjveckweise designed essentially angular and with one leg in the ceilings and the essential part of the other leg cast into the walls. To accommodate and distribute in the ceiling near the point where the suspension elements from the same protruding, occurring, vertical forces can be in this a reinforcing iron be poured, which is parallel to the longitudinal edges of the ceiling and in small Distances from these, so where the suspension elements are provided, extends by the suspension elements are attached in such a way that the reinforcements mentioned on top of the legs of the suspension elements cast in the ceiling in the apex of the angle. The invention is described in more detail with reference to the drawing, which schematically illustrates some embodiments of the invention.

Fig. I shows in section an embodiment of an inventive Construction; FIG. 2 shows, on a smaller scale, a plan corresponding to that of FIG Fig. I; Fig. 3 and .4 show a section and plan as in Fig. I and 2 a other embodiment. In Figs. I and 2, i denotes a molded wall in one Building and 2 also a cast ceiling. The ceiling forms an independent Construction part and is not cast in one piece with the wall i.

3 indicates the suspension elements used according to the invention. These are essentially angled with one leg 3a that goes into the ceiling 2 is cast, while the other leg 3b, which extends from the outer edge of the Ceiling extends upward for a substantial part of its length into the wall i is poured. 5 denotes a reinforcing iron that is in the ceiling near the the wall i lying longitudinal edge is cast. The suspension element 3 is how It can be seen from the drawing, attached in such a way that the reinforcing iron 5 on the upper side of the leg 3a of the suspension element, which is cast into the ceiling at the vertex: 4 of the angle is located.

A number of suspension elements 3 are at appropriate intervals along the Attached to the edge of the ceiling 2, as shown in FIG. The ceiling 2 can possibly be suspended exclusively by means of such suspension elements. These can then either be distributed along all the longitudinal edges of the ceiling or at least two of them. The last-mentioned embodiment is expedient applied when the ceiling is elongated.

According to the invention, however, it is also possible to use the blanket of the suspension element 3 along one or more of the outer edges to hang up while they are along the other outer edges or, if necessary, at other locations is supported in other ways. In this case, of course, one achieves does not take full advantage of the invention.

The essence of the invention is that the ceiling or a another horizontally lying structural part, which is between vertical structural parts extends, is wholly or partially suspended in elongated suspension elements, instead of being cast in one piece with the vertical construction parts or supported by supports, cantilever straps or the like, the compressive stresses and / or are exposed to bending stresses. Such a suspension is possible, the part of the suspension element that is on the outside of the ceiling or another similar construction part is at an angle of extend upward more than .45 ° to the horizontal plane.

The fact that the suspension elements with a very small cross-section can also be performed leads to several advantages. Is the ceiling with the wall or another vertical structural part cast in one piece, all vibrations generated in a ceiling are planted on the surrounding walls and then on the other ceilings in the building or on other horizontally lying ceilings Construction parts. As a result, noises and vibrations generated in generated on one floor, to a large extent on the other floors of the building.

This disadvantage is avoided by the construction according to the invention.

In cast buildings where the ceilings are in one piece with the walls are poured, cracks gradually appear as a result of shrinkage in the concrete same.

In the construction according to the invention, this crack formation is from the Basically significantly less, because the ceilings in the thin, flexible suspension elements hang freely.

Another benefit that is achieved is that the casting of the ceilings after the load-bearing walls have been poured, is made possible without that recesses are made in these walls. When pouring buildings can proceed as follows: First the vertical structural parts poured in full without pouring the ceilings. In the heights where the Ceilings are to be poured into the vertical structural parts Suspension elements cast by removing the parts of these elements that divide into the storeys are to be poured, are temporarily placed so that they are with the surface of the structural part directed towards the ceiling are in alignment. This will achieved that the sliding molds used in the casting of such walls to the Suspension elements can slide past. If the walls and, if necessary, the rest vertical structural parts; like columns and the like, are cast, the parts become der, suspension elements to be cast into the ceilings from the vertical Structural parts bent out, after which the ceilings by pouring the bent out Parts of the suspension elements are poured in such a way that the ceilings with the vertical Structural parts are connected by hanging in the suspension elements.

The construction according to the invention can also be advantageous in building constructions be used where to achieve a good 'thermal insulation on the inside the outer walls have a heat-insulating layer attached to them that is uninterrupted extends between the ceilings and the exterior walls. Such an application of the The invention is shown in Figs.

Here, 6 denotes an outer wall and 7 a ceiling. 8 is a suspension element similar in nature to that shown in FIG. The leg 8 ° is like this in the ceiling poured that a reinforcing iron 9 on the top of the leg directly is at the vertex of the angle. io denotes a heat insulating layer that is attached to the inside of the outer wall. Between the outer edge of the ceiling and the outer wall is a gap through which the insulation layer io is passed through continuously. The suspension element extends from the ceiling in the upward direction through the insulation layer and into the wall 6. If the insulation layer is not sufficiently pressure-resistant, between the wall and Some spacers should be added to the ceiling to prevent the wall from falling is pulled towards the ceiling.

Achieved by this application of the construction according to the invention you can easily get good thermal insulation. The heat transfer from the ceiling on the outer wall is only through the thermal insulation layer and through the suspension elements $ 4 can take place in proportion to the surface area of the outer surface of the ceiling only have a very small cross-section.

Claims (1)

PATENT CLAIMS: i. Connection of vertical and horizontal structural elements of cast buildings, characterized in that the structural elements are suspended by means of elongated suspension elements which are attached at suitable intervals and which are arranged in such a way that they are essentially only subjected to tensile loads. a. Connection according to claim i, characterized in that the suspension elements on the outside of the suspended structural element extend upwards at an angle of more than 45 ° to the horizontal plane. 3. A compound according to claim i or z, characterized in that the suspension elements have a substantially angular shape and are cast with one leg in the ceiling and the other essential part of its leg in one of the vertical structural elements. 4. A compound according to claim 3, characterized in that a reinforcing iron is cast into the longitudinal edge of the ceiling and the suspension elements are attached in such a way that the reinforcement iron is located on the upper side of the angle limbs of the suspension elements cast into the ceiling and in the vicinity of the angle apex.