DE823502C - Building ceilings - Google Patents

Description

Building ceilings In the usual execution of buildings, ceiling elements are used as supporting beams or as ceiling panels supported at both ends on load-bearing walls. The evenly or unevenly distributed load leads to the static Stress on these ceiling elements at any point between the two support points, is preferably largest in the middle between the two support points and There is a tensile zone on the underside of these elements and one on their upper side Forms pressure zone. The support of these ceiling elements in the wall also leads to a weakening of the pane strength of the continuous load-bearing walls in the multi-storey building in the form of beam holes or support grooves for the ceiling elements. Considered a floor slab with two parallel supporting walls and the ceiling element above, so one can understand this structure as a quadrilateral joint, since the connecting points only allow the formation of a very low corner stiffness. Only in special constructions, As with the mushroom ceiling, for example, there is strong corner stiffening. So much it is ceiling beams, inserted between the ceiling stones as a filler body a further difficulty arises from the fact that the beam is on its underside a flange is required to support the ceiling stones and thus an increase in cross-section in the tensile zone, while conversely such a cross-sectional increase in the pressure zone would be desirable. The formation of a double T-bar to remedy this difficulty makes the manufacturing process more expensive and more difficult of beams and ceilings.

The present invention avoids these difficulties in the Production of building ceilings by means of stored in rising walls, as Beams or panels of trained ceiling elements in that the ceiling elements (Beams and / or plates) roughly in the middle of their length in a rising partition are supported and clamped in this so that they are with the partition wall that supports them result in a rigid structure, each with one, to the front. cantilevered Same ends of its ceiling elements abutting with the collar ends of the ceiling elements Forms added to a three-hinged arch, two of whose joints are from the base points of the two walls and the third joint from the joint of the cantilever ends of the ceiling elements are formed.

This allows in the zone of greatest material effort, which in this case coincides with the support zone, favorable cross-sections of the load-bearing Element are formed. In contrast to the difficulties mentioned above are also now with the ceiling elements as a result of the reversal of the pressure zone and the tension zone created favorable conditions. The pressure zone is now down, in the area of cross-sectional enlargement, as required for the production of supports for the ceiling structure is required. Also, the underside of the ceiling is on which Crack formations are particularly undesirable for various reasons, now as a pressure zone secured against such cracks, which is particularly valuable for ceiling beams is. Cracks, which on the other hand occur in the tensile zone that is now on top, can be poured when applying the floor.

The fact that the continuous ceiling elements in the wall in this are clamped in total, the whole ceiling is clamped, as is the case with one Mushroom cover is the case. Clamping can be achieved through special training the ceiling elements as well as special support pieces, which are then to be shed, to be achieved. The ceiling clamped in the supporting wall, which meets the next cantilever ceiling above the room, forms with this joint as Joint understood and the two base points of the associated supporting walls a three-hinged arch, so that a structurally much more favorable system is created than with the usual one Ceiling version is possible.

The method according to the invention also enables a consistent implementation the requirement that the insulating and load-bearing functions in the building material are sharp be separated from each other after they are completely different and repetitive Make demands on this building material. The fact that this separation so far did not take place, led as a result of the simultaneous promotion of insulating and load-bearing Properties of the same building material mean that there is a considerable waste of building material was caused. Both load-bearing building materials had to be used to achieve the insulating effect can be used in disproportionately thick walls, as well as insulating walls, vice versa Building materials to achieve the necessary load-bearing effect. The cantilever ceiling enables consistent Application of load-bearing interior and partition walls so that the exterior walls are inclusive the gable walls can be made of non-load-bearing materials. One such System of cantilever ceilings, which are preferably on load-bearing structures parallel to the ridge direction -Middle walls or can be supported on numerous load-bearing transverse walls a system of further cantilever slabs can also be placed in front, which are rotated by 90 ° are. In this way it is possible, while maintaining the principle of very deep, to develop statically favorable Rau.mgefache.

The more favorable static conditions according to the invention Method produced cantilever ceiling also allows that in a further embodiment of the invention ceiling panels are used in the partitions supporting them Provide protruding parts with ducts for ventilation, heating or installation purposes are.

Preferably, for heating purposes, the channels of the ceiling panels are also designed in such a U-shaped shape and position that the crossbar of the U is close to the central support surface of the panels and the upper ends of the U-legs are guided along the longitudinal sides of the panels that the two entrances formed by them coincide with those of the neighboring, parallel ceiling tiles.

The middle separating web of the U-shaped channel is expedient the ceiling panels made of lightweight filler concrete, while all other parts be executed in reinforced heavy concrete.

In addition, according to the invention, the ceiling panels in the support area with a transverse ventilation and ducting duct that is open at the bottom and at the top provided and when laying on the masonry are arranged so that their cover vertical openings with channels provided in the masonry.

Finally, the connection surfaces of the ceiling panels are expedient on the two long sides and at the head end with groove-shaped, conical upwards provided expanded casting profiles, so that they shear forces after the joint has been poured can transfer.

Further details, features and advantages of the invention result from the following description, in which it is based on schematic drawings for example is explained in more detail.

Fig. I and Fig. 2 show the different support of the support elements, namely in the usual manner the Fig. i and according to the present invention the Fig.

The support elements i are shown in FIG. I in the usual manner on supporting Walls, for example, intermediate walls 2 superimposed. The illustration assumes that the supporting elements have bent severely under excessive load, in order to increase the effects in the constructive and static direction in this way illustrate. In Figure 2, in contrast, according to the invention the support elements 3 each superimposed centrally on supporting walls 4, with from For the same reasons, a considerable deflection of the support elements under the load is accepted. This illustrates that it is possible according to the invention is, between the support element 3 and the wall 4 in contrast to the usual design to achieve a solid structure. Fig. I and Fig.2 also clarify the fact that in the old version (Fig. i) the tension zone is at the bottom and the pressure zone is at the top, while in the new version (Fig. 2) the reverse is the pressure zone below and the Tensile zone is arranged above. Except for the stiff ones made possible by the invention Connection between support element 3 and support element 4 and apart from the favorable reversal the tension zones and the pressure zones result, for example, in ceiling joists as Support elements according to FIG. 3 in addition to the advantages mentioned, the favorable storage of the Cross-section in the ceiling beam 5 in that the resulting for the support larger, lower cross-section in this case coincides with the pressure zone.

Fig. 4 shows the arrangement of load-bearing walls such that on the to the supporting transverse walls 6 parallel outer sides each another rotated by 90 ° System of load-bearing transverse walls 7 is upstream. In this way, the Perform a wide variety of floor plan solutions so that according to the invention one Consistent separation of the insulating and load-bearing functions must be carried out can. The entire outer walls can be used as non-load-bearing insulating walls get to execution.

5 shows a support element which is designed as a heated ceiling plate 8 is. This electric blanket plate 8 contains channels 9 through which hot air flows, to heat the electric blanket plate. The heating channels 9 are, for example, U-shaped formed, with each heating ceiling plate two such, facing away from each other May contain U-shaped channel pieces. By juxtaposing the with their entrances coincident heating ceiling panels then results in a channel system according to FIG. 6, which can be closed through large ceiling areas. The electric blanket plate 8 is cut so far in Fig. 5 on the left that the heating channel 9 is open. The middle separating web io of the heating channel 9 can be made of lightweight filler concrete be made, while all other parts are made of reinforced heavy concrete.

The invention is of course not limited to the details explained limited, rather deviations of various kinds are possible within their framework.

Claims (7)

PATEN TANSPRI; ciiF: i. Building ceiling by means of ceiling elements supported in rising walls, designed as ceiling beams or ceiling panels, characterized in that the ceiling elements (beams 3 and / or panels 8) are supported approximately in the middle of their length in a rising partition (4 or 6 or 7) and in these are clamped and with it result in a rigid corner structure that forms a three-hinge arch with the adjacent similar corner reinforcement, the ankles of which are the foot points of the two walls (4) and the third joint of which is the joint (ii) of the two corner reinforcing structures (3, 8) are. 2. Building ceiling according to claim i, characterized in that the partition walls (4, 6) in the direction of the ridge of the building and the ceiling elements that form the corner reinforcement with them are arranged perpendicular to it and vice versa. 3. Building ceiling according to claim i and 2, characterized in that a system of partition walls (4, 6) and cantilevered Ceiling elements (3, 8) existing corner stiffening structures a rotated by 90 ° similar system is upstream. 4. Building ceiling according to claim i to 3, characterized by plates (8) which protrude from the partitions (4, 6, 7) that support them Parts are provided with channels (9) for ventilation, heating or installation purposes. 5. Building ceiling according to claim 4, characterized in that for heating purposes the channels (9) of the plates (8) each have such a U-shaped shape and position that the transverse web of the U in the vicinity of the central support surfaces of the plates (8) lies and the upper ends of the U-legs are guided to the longitudinal sides of the plates that the two accesses formed by them coincide with those of the adjacent, parallel plates (8). 6. building ceiling according to claim 4 and 5, characterized in that the middle separating web (io) of the U-shaped channel (9) of the plates (8) consists of light filler concrete, while all other parts are reinforced Heavy concrete exist. 7. Building ceiling according to claim 4 to 6, characterized in that that the plates (8) in the support area with a transverse, downward and Provided ventilation and duct duct open at the top and in relation to the masonry are arranged so that their vertical openings with provided in the masonry Cover channels. B. building ceiling according to claim 5 to 7, characterized in that the connection surfaces of the plates (8) on the two long sides and at the head end with Groove-shaped upwardly conically widened potting profiles are equipped.