DE857443C - Building construction with load-bearing components and partition walls - Google Patents

Description

Building construction with load-bearing components and partition walls The Original invention concerns high-rise buildings with load-bearing components and partition walls and aims to design these structures so that they can be built quickly and cheaply are.

The basic drawing brings in three images each Exemplary embodiment of the subject matter of the invention in a three-dimensional representation.

The first embodiment (Fig. I) is a one-story, building with a gable roof. This has as load-bearing components in the In the middle of each gable end there is a pillar i embedded in the ground, which extends up to the The height of the ridge extends and from its upper end in the gable surface on both sides a downward sloping tension member 2 goes off. The four tension members 2 lead to one of the four corners of the room or floor ceiling 3, which is thus essentially is supported by means of the tension members 2 of the pillars i, if one of the immediate Connection between the pillars i and the ceiling 3 refrains. On the long and short sides the side walls 4 are suspended from the ceiling 3, i.e. H. so attached and arranged, that they are essentially only used on train. The tension members 2 form the boundaries of the roof, which is thus a gable roof. Are they big Buildings, in addition to the tension members, you can have 2 additional tension members in the gable level provide that from the upper end of the pillar i from the ceiling 3 also between the corners wear; at all you can then the upper gable surface in more familiar with brackets Form hanging or truss-like way. In the second embodiment (Fig.2), instead of the two pillars i, there is only one pillar 5 in the middle of the building provided, from the upper end of each one tension member 6 to the four corners of the ceiling 7 goes off. In this case, the tension members 6 form the boundaries of a tent roof. Otherwise, the design corresponds to that of the first exemplary embodiment. It is at Large buildings are also possible in this case, except for the tension members 6 in between Provide tension members that support the sides of the ceiling 7 in the middle.

In the further pursuit of the inventive idea, in particular that according to Fig. 2, Fig. 3 shows a multi-storey building as a third embodiment. In this case, the pillar 8, the tension members 9 and the ceiling io of the top floor do not differ in the main from the corresponding parts of the previous embodiment. From each corner of the ceiling io a tension member ii leads downwards, to which one corner of the underlying room or floor ceilings 12, 13, 14 and, if necessary, other ceilings are attached. The walls 16 and the further walls below are preferably on their ceiling 12, etc. Strongly fastened at the top, like the walls 15 on their ceiling io, so that the walls 15, i6, etc. only have to bear their own weight from floor to floor, so only to the extent that they are subjected to train. It should also be noted that the construction according to Fig. I can also be used in multi-storey buildings, where one has the option of placing the lower ceilings on the tension members corresponding to the tension members from the uppermost ceiling or each ceiling on the pillars corresponding to the pillars hang up by means of the tension members 2 corresponding tension members. It is also possible to connect the pillar arrangement according to fig. I with that according to fig. 2 or 3. One will then expediently place one wind pressure bandage (bracing), preferably formed by tension members, in an inner or longitudinal center wall and the other correspondingly formed bandage in the gable walls. How these associations are arranged according to the design according to Fig. 1 or 2 or 3 will depend on the circumstances (interior design of the building).

The term building construction in the sense of the invention includes houses for residential and business purposes as well as commercial and agricultural buildings. With these So far, the floor ceilings have usually been on load-bearing. Components, like walls, Pillars, pillars, etc. The walls and walls are under pressure and buckling claimed and must then receive certain minimum dimensions, which are often a multiple which by other requirements, i.e. essentially by the room closure, conditional dimensions, however, they can only correspond to their actual dimensions Purposes (room closure, protective insulation) are measured, then material is saved. This is possible if they are installed according to the invention so that they on Train are stressed. The room-enclosing walls are then preferably attached Horizontally arranged ceilings, tiers, platforms, balconies, cantilevers, etc. These components, which are arranged essentially horizontally, are in turn suspended Load-bearing components such as pillars, columns, portals or A minimum number of frames and their cross-sectional focus generally with the center of gravity of the supported components of the traverse after essentially covers. But it is not absolutely necessary that these two The focal points coincide, since the focal points only result in a disintegration of the focal points has that the walls, in particular the side walls, or the tension members ii corresponding, Tension members specially provided for this purpose are subject to different levels of tensile stress. The load-bearing component (s) protrude above the top floor ceiling, and this are suspended from it by means of inclined tension members, so that these tension members with only one load-bearing component the limitation of a tent or conical roof and in the case of two load-bearing components, that of a gable roof. The top ceiling in such a way forms a spreading member or a spreading frame for this Tension members, and on it the underlying parts of the building are directly or indirectly suspended by means of additional tension members that lead vertically downwards, unless one, which is in particular called the design according to Fig. i (a load-bearing component on each gable side) is possible, each lower ceiling of the load-bearing component can be carried for himself as he carries the top ceiling of the room.

Claims (7)

PATENT ANSPr, Üciir :: i. Building construction with load-bearing components and space-enclosing Walls, characterized in that the space-enclosing walls (z. B. 4) are essentially only on train. namely by their own weight, are stressed and on such Minimum number of load-bearing components subject to strength stress (e.g. i) hang, claß see the most economical design possible. 2. Building construction according to claim i, characterized in that the load-bearing component (s) is the top ceiling (3, 7 or io) protrude and this by means of inclined tension members (2, 6 or 9) is suspended, so that this is, for example, only one load-bearing Component the delimitation of a tent or conical roof and two load-bearing components form a gable roof. 3. Building construction according to claim i or 2, characterized through a direct connection of the top ceiling (3, 7 or io) and, if necessary the underlying room ceilings (12, 13, 14, etc.) with the supporting component (s) (1, 5 or 8). 4. Building construction according to claim 2 or 3, characterized by further tension members. the tension members (2, 6 or g) also carry the ceiling (3, 7 or io) on the sides between the corners. 5. Building construction according to one of the preceding claims, each with a load-bearing component on the Gable side, characterized in that the upper gable side in with brackets known «'ice is designed like a hanging or truss structure. 6. Building construction according to one of the preceding claims with several floors, characterized in that of the points at which the inclined tension members (z. B. g) attack the top floor ceiling (io), perpendicular tension members (ii) to .unten from which the other floor ceilings (r2, 13, 14, etc.) hang. 7. Building construction according to one of claims i to 5, each with a load-bearing component on the gable side and with several floors, characterized in that each ceiling is supported by the load-bearing component as the top ceiling. Building construction according to any one of the preceding claims having a plurality of levels, characterized in that the space-enclosing walls (i5, 16 etc.) are secured to each floor ceiling (1o, 12, etc.) that they carry their own weight only from floor to floor. G. Building construction according to one of the preceding claims with inner walls, characterized in that the wind pressure bandages are at least partially laid in the inner walls.