EP0886015A1 - Tall building - Google Patents

Abstract

The multistorey building includes intermediate floors (2,19) made of plate sections (11). Each plate has a wedge-shaped outline becoming narrower towards the centre area of the building and adjoining one another with their wedge side faces through mutual surface pressure. A tie element (25) engages on each of the plate sections to apply horizontal force directed towards the centre area of the building. The tie element can be a circumferential element such as a cable surrounding the centre area at a distance to draw in a structural element (26) of variable length. The ends of the cables can be connected by a tensioner.

Description

The invention relates to a composite of plate-shaped components Building construction with an outer wall, at least one intermediate floor in the course of the height of the structure and at least one load-bearing support, in particular a load-bearing support in the center area of the building.

The construction of conventional buildings is complex and expensive. The panel construction may reduce costs in some ways, but the connection does of the plates especially with the help of screws and mastery of the occurring voltages still represent a significant effort. In particular Despite a panel construction, it is hardly possible to build one that has already been built Dismantling buildings with reasonable effort and new elsewhere to build. Another problem with conventional buildings is that they are very poor Earthquake resistance.

Buildings such as exhibition pavilions are known to be erected, dismantled and can be rebuilt. However, these structures are only for suitable for provisional purposes, but hardly robust enough for permanent installations.

The invention is intended to erect structures from plate elements simplified and facilitated, thereby making the building cheaper; according to further training should also dismantle and reestablish the Building may be possible, or the earthquake security increased.

This is achieved according to the invention in that the intermediate floor Plate sections are each composed of a wedge-shaped plan, which for Center area of the building to become narrower and the one another with their Wedge side faces bear against each other under surface pressure, and that on each of the plate sections for applying one to the center area of the Structural horizontal force attacks a tension element. Even the bottom one Soil, which rests, for example, on a foundation, can be laid in be formed in this way.

The tension element, expediently a circulation element and in particular a Cable pull, exercises on the wedge-shaped plate sections towards the center Strength enough to create a complete mezzanine floor from a number such plate sections in the center area and on their circumference or are also supported along their wedge side surfaces, stably fixed. Preferably it is the support in the central area and the supports on the outer walls around columns, preferably in the form of Metal pipes. With larger structures, however, load-bearing walls gain important because of their high pressure resistance. Especially in the area of Outside wall are suitable for the support other than the columns, which in this case Have flanges to support the panel sections, including the outer wall panels itself. The structure can take the form of an upright straight prism, for example an octagon prism, with the pillars in the center and run along the prism edges. The panel sections themselves then have the shape of sectors, of which, however, the tip is truncated, i.e. cut off can still be in the area of the supporting support in the center area to enable further installations. As a borderline case, the sections are circular sectors and the building is a round building. Due to protruding parts However, the panel sections are also other floor plans, particularly rectangular or also with oriel, can be created.

The panel sections are preferably including their respective installations poured at the construction site. Are the materials that make up a medium-sized building according to the invention can be built, however are prefabricated, so they are preferably in a standard container transport. Should be for a larger building, especially one with larger diameter, larger plate sections and other elements transported there is a possibility to turn these sections to subdivide as indicated in claim 9. Pouring the extra Plates in the gusset are particularly suitable if that Structure should remain in place.

In the preferred embodiment, in which the load-bearing support is in the center area is a tubular column, the vertical verund are expedient Disposal lines such as power and communication lines and also Water pipes both upwards and as rainwater roof drainage laid down in the central pillar. Even a staircase can be in the central Area with an angle below, equal to or over 360 ° around the central column are around. The horizontal supply lines are the easiest laid in channels in the longitudinal direction in the adjacent wedge side surfaces the plate sections are formed. These channels can also pass through Insert suitable expansion bodies such as pipe pieces for mutual alignment of the plate sections of the floor are used. Can continue the channels on the wedge side surfaces can be used for additional assembly, especially on the top floor for attaching a roof structure, by screwing out of these channels outwards or other fastening pins are misplaced. Finally, it is possible that the plate sections only support with their gutters on the tubes inserted in them, which are in the Center area are welded together and there is no support for Have a foundation.

The invention also relates to a method for erecting the structure, specifically in the case that this is circular cylindrical in the center area Column. The erection of the structure is carried out with the erection of the column started and, when it stands, pulled up a sleeve on which one Cantilever is located. With the help of a suitable gauge on the cantilever work is carried out at regular intervals in all directions, for example, foundations for the pillars of the outer wall are set; In addition, screed or other material can pass with the cantilever with a given angle of the radii to the horizontal, for example, when making a slight incline inward or flat roof on the outside.

Fig. 1

eine perspektivische, teilweise weggebrochene Darstellung eines erfindungsgemäßen Bauwerks;

Fig. 2

eine perspektivische Ansicht einer für die Böden des Bauwerks von Fig. 1 verwendeten Plattensektion;

Fig. 3

eine Draufsicht auf einen zwei Stockwerke gegeneinander abteilenden Zwischenboden des Bauwerks von Fig. 1;

Fig. 4

eine Detailansicht eines Außenwand-Säulenbereichs des Bauwerks von Fig. 1 in Seitenansicht und Draufsicht;

Fig. 5

eine Querschnittsansichteines Säulenfundaments einer Außenwandsäule;

Fig. 6

eine Schnittansicht durch den Berührungsbereich zweier Plattensektionen mit daran montierten Dachkonstruktionsteilen;

Fig. 7

eine Draufsicht auf ein Fundament eines erfindungsgemäßen Bauwerks;

Fig. 8

eine Draufsicht auf einen Zwischenboden des Bauwerks von Fig. 6;

Fig. 9

eine Seitenansicht eines Arbeitsgeräteaufbaus bei der Errichtung eines erfindungsgemäßen Bauwerks;

Fign. 10, 11

Schnittansichten durch Bauwerke unter Veranschaulichung der Herstellung von Bauwerksteilen;

Fig.12

ein Querschnitt durch ein Bauwerk mit im Vergleich zu Fign. 10 und 11 abgewandelter Dachkonstruktion;

Fig.13

eine Einzelheit der Darstellung von Fig. 12 im Schnitt unter Darstellung von dem Lagen;

Fign. 14 - 16

eine Seitenansicht, einen Querschnitt bzw. einen Horizontalschnitt durch ein erfindungsgemäßes Bauwerk;

Fig.17

eine Seitenansicht eines weiteren erfindungsgemäßen Bauwerks;

Fign. 18, 19, 20

eine Seitenansicht, einen Querschnitt bzw. einen Horizontal schnitt durch ein weiteres Bauwerk;

Fign.21, 22

eine Seitenansicht bzw. einen Grundriß eines weiteren Bauwerks;

Fign. 23, 24

bereichsweise Draufsichten auf aus abgewandelten Konstruktionen von Plattensektionen zusammengesetzte Böden oder Zwischenböden;

Fig.25

eine hinsichtlich der Form der Plattensektionen abgewandelte Ausführung;

Fig.26

eine hinsichtlich der Zwischenbodenabstützung abgewandelte Ausführung.

Further details, developments and advantages of the invention emerge from the subclaims and from the following description of preferred exemplary embodiments with reference to the drawing. Show it:

Fig. 1

a perspective, partially broken away representation of a building according to the invention;

Fig. 2

a perspective view of a plate section used for the floors of the structure of Figure 1;

Fig. 3

a plan view of an intermediate floor of the building of FIG. 1 which divides two floors;

Fig. 4

a detailed view of an outer wall pillar area of the structure of Figure 1 in side view and plan view.

Fig. 5

a cross-sectional view of a column foundation of an outer wall column;

Fig. 6

a sectional view through the contact area of two panel sections with roof construction parts mounted thereon;

Fig. 7

a plan view of a foundation of a building according to the invention;

Fig. 8

a plan view of an intermediate floor of the structure of Fig. 6;

Fig. 9

a side view of an implement construction in the construction of a building according to the invention;

Fig. 10, 11

Section views through buildings illustrating the production of building parts;

Fig. 12

a cross section through a building with compared to Fign. 10 and 11 modified roof construction;

Fig. 13

a detail of the representation of Figure 12 in section showing the layers.

Fig. 14-16

a side view, a cross section or a horizontal section through an inventive structure;

Fig. 17

a side view of another building according to the invention;

Fig. 18, 19, 20

a side view, a cross section or a horizontal section through another building;

Figures 21, 22

a side view or a floor plan of another building;

Fig. 23, 24

partial top views of floors or intermediate floors composed of modified constructions of plate sections;

Fig. 25

a version modified with regard to the shape of the plate sections;

Fig. 26

a variant modified with regard to the intermediate floor support.

Fig. 1 shows a building in the form of an octagonal building on the left Page is only shown as the lower half to illustrate the interior of the building. The building consists of a slab floor laid on the ground 1 and an intermediate floor separating the ground floor from a first floor 2, which also consists of prefabricated panels, still from outer wall panels 3, each with a floor height, also one Single panel composite roof 4, a central pillar 5 and eight Outer wall columns 6. The latter are in the left half of Fig. 1 over the clipped interface protruding, but somewhat higher above then also cut through.

The shelves 1 and 2 are each shown in FIG. 2 as eight individual pieces wedge-shaped or sector-shaped plate sections 11 assembled at the bottom 1 lie on the ground and on the floor 2 in the area of the outer wall on the outer wall panels 3 and on flanges 12 (FIG. 5) of the outer wall columns 6 and in the center area partly on wall panels 13, which are a central staircase surrounded, and partly on a flange not visible in the drawing, which is formed on the central column 5 are supported.

As shown in the right half of the picture following the column 5 the upper floor of the building and an attic through another Partition 19 separated, which also consists of plate sections 11, the on the outside of the flanges of the outer wall columns 6, which are not visible in the drawing and are supported on the inside of a flange of the central column 5.

Each of the floors 1, 2 and 19 is a circular element in the form of a Pull rope 25 held together, that is, the building shown in Fig. 1 by three pull ropes 25. The pull ropes 25 each span at the level of the relevant Ground the building and are - for example, by a middle rope 25 indicated turnbuckle 26 - so strongly tensioned that the plate sections 11 with their narrow side surfaces, which are referred to as wedge side surfaces 27 be pressed together. The tension in the pull cables 25 and so that the surface pressure on the wedge side surfaces 27 is sufficiently strong to stabilize the structure.

The individual plate section 11 has the two narrow rectangular around its circumference Wedge side surfaces 27, also a narrow rectangular outer surface 28 and at the tip one of the layout adapted to the center in the illustration of Fig. 2 arcuate inner surface 29. Between the wedge side surfaces 27 and the outer surface 28, the plate section 11 each has an outer corner edge 30. Near this corner edge 30 are each semi-cylindrical vertical Troughs 35 formed, the radius of which corresponds to the radius of the outer wall columns 6, around each two adjacent plate sections 11 with their Troughs 35 are laid. In the longitudinal direction of the wedge side surfaces 27, that is from Away from the center area, horizontal grooves 36 run along in these areas a triangular profile, with the profile of an isosceles 45-degree triangle. In the embodiment shown, the grooves 36 do not reach that Corner edge 30, in the vicinity of which the wedge side faces 27 thus along the lie together at full height and therefore do not allow air to pass through. In Distances branch from them in the plate section shown in FIG. 2 horizontal channels 36 in turn upwards and / or downwards smaller ones semi-cylindrical grooves 37, which then in the area of the plate section top or underside open to the outside. One of these smaller vertical channels 37, which is denoted by 37 ', opens directly at the border line at which the Inner surface of the vertical outer wall panels 3 comes to rest. Near the Corner edge 30 has a bore 38 formed in the panel section the corner edge 30 cuts off and ends in the groove 35.

Fig. 2 shows the floor plan of the slab section for a building with polygonal Cross-section and as a dashed line for a rotunda.

3 and 4 illustrate, by way of example, the course of the pull rope 25, the is stretched in the three levels around the building of Fig. 1. It runs over a essential length of the respective outer surface 28 of the individual plate section 11 along this outer surface, but enters the respective hole in the corner area 38 a. At the level of the bore 38, the individual outer wall column 6 has a Cross bore 39 in the area in turn within the column 6 Square tube 40, also with a cross hole, is located. The pull rope 25 takes its way through holes 38 and 39 and thus across column 6 and the square tube 40.

The building according to Fig.n 1 and 3 has an octagonal plan and represents insofar as a straight octagonal prism with vertical prism edges 45 The corner edges 30 of the plate sections 11 and the outer wall columns 6th are located in the area of the prism edges 45. Extend between the columns 6 the outer wall panels 3 preferred according to the illustrated Embodiment are flat, corner-free plates. The vertical narrow side surfaces these plates are provided with channels 46 which are arranged around the columns 6 lay.

The columns 6 are, as in FIG. 1, in a cut-out area and also is shown in Fig. 5, anchored in the ground in foundation troughs 48, which in the Are used underground. After placing column 6 in place, you can do it all or partially poured with concrete 49. 5 is the foundation trough 48 in two parts, namely with a trough part and a pipe section, executed. The central column 5 can also be anchored in the same way.

In the central area is the execution of the building according to the Fig.n 1 and 3 a slightly more than 180 ° taking stairs 51, which as Spiral staircase is executed. The plate sections 11 are in the area of the stairs Tronked fairly far from the top to make room for the stairwell create. As stated, they rest on those that close off the staircase to the outside Wall panels 13 on. On the opposite of stairs 51 Side of the column 5, the plate sections 11 reach up to this column and rest on their flange. Within the column 5 are not shown Layed supply lines, for example electrical cables, communication cables, Water pipes, sewage pipes and also one coming down from the roof Rainwater drainage.

5 illustrates the horizontal channels 36 the wedge side surfaces 27 of the plate sections 11 and shows one in these grooves inserted alignment or centering pipe piece 53. In the grooves 36 are For example, two or three pipe sections 53 per plate section side Pipe pieces have a diameter equal to the square side length of the cross section two adjacent grooves 36. By the generated by the pull rope 25 Centripetal force of the plate sections 11 and thus by the pressing together the wedge side surfaces 27, the two grooves 36 exert a compressive force on the The length of the pipe pieces 53 distributed and thus cause an accurate Height alignment of the plate sections 11 against each other.

The channel that is formed by the horizontal channels 36 and in which the pipe pieces 53 are also used for the passage of supply lines from the central pillar 5. These supply lines can for example be led out into the room through the vertical channels 37 '.

The remaining vertical channels 37 serve to carry out assembly elements like screws 55. FIG. 6 shows a screw 55 in a sectional view a wide countersunk head or dovetail head 56, which in the by the Channels formed channel 36 is held during the bolt after protrudes from the floor at the top. Referring to Fig. 1, this is Construction particularly advantageous in the upper intermediate floor 19, on the With the help of a strut construction the roof is mounted. Fig. 6 indicates roof construction parts 57, which are placed on the bolts of the screws 55 and each are screwed tight with a nut 58. 6 is from the bottom through the passages 37 formed a passage hook 59 in front.

The structure described so far is after the erection and the bracing the pull ropes 25 completely firm and stable. The one for its establishment Diameters of eight meters required parts can be in a standard container be transported. A length of the outer surface 28 then results of 3.06 m, which is in the 2.70 m high standard container when inclined fits. For larger buildings, the slab sections are advantageously on poured into the construction site.

If the diameter is to be increased to 10 m and still the accommodation in a standard container, this can be done by cutting the Plate sections 11 according to FIG. 25 described later.

Fig. 7 shows in plan the foundation or floor 1 of a twelve-sided Building with an essentially square foundation. This will do so achieved that plate sections 11 and 11 'are used, of which the Plate sections 11 have the outline of the sections shown in FIG. 2, while the Plate sections 11 'each have a protruding part 61. Parts 61 have the shape of an isosceles right triangle and form the Corners of the square foundation. In one of the plate sections 11 are in this plate cast heating coils 62 shown. The connections of the Heating coils are located inside the central tube 5.

7 is quite large, with the result that the weight of the plate sections 11, 11 'not exclusively from a central one Metal pipe to be worn. In the illustrated embodiment concentric to the central inner tube 5, which has a diameter of 1 m, an outer tube 63 with a diameter of 1.50 m arranged and the Space 64 poured with concrete. So this space itself a very robust tubular column, on the upper edge of which the inner The ends of the plate sections 11, 11 'rest and are supported.

The pull cable 25 runs completely in the plate sections 11, 11 'according to FIG. 7 within these sections in a bore 65. Only in the area of the turnbuckle 26 is the course of the pull rope 25 as far open or is by a Open the lid so that the turnbuckle for tensioning and eventual Tensioning the pull rope 25 is accessible. The holes 65 can for example by inserting a tube or hose when casting the respective Plate section are formed. It should be noted that the plate sections 11 ' the bore 65 not along the outer circumference of the protruding part 61 runs, but has a course that the course of the plate sections 11th corresponds.

FIG. 8 shows a building erected on the foundation according to FIG. 7 the upper intermediate floor 2.

For the erection of the building, it is preferred to first use the central column 5 to set up. Numerous jobs can be carried out with great precision from this perform, as indicated in Fig. 9. On a pulled over the column 5 Sleeve 70 sits over struts 71, a cantilever arm 72 with the sleeve around the Pillar 5 is rotatable. The length of the cantilever arm 72 is adjustable so that, for example at the end a lesson for concreting the edge foundations can be attached. The cantilever can also be used for spreading, for example of screed on the floors with a precisely horizontal surface, or also in a slightly oblique arrangement to achieve a roof-like or funnel-like Gradients of a few degrees can be used outside or inside. By Such measures will be easy, cheap and quick to set up of the shell in a similarly quick, cheap and precise way Expansion measures made possible.

Fig. 10 illustrates further work in the construction of the building. In the Figure are a mold 75 for casting a plate section 11 ', a radial movable hoist 76 and a smoothing roller 77 seated on the cantilever, with the Help screed or other floor covering can be spread evenly, shown. It also shows how roof panels 78 correspond to arrows 79 put on and plugged onto the outer wall columns 6 protruding above and find a hold with it.

Figure 11 shows comparable operations in a similar construction, but here with an additional cantilever arm 83 which is attached to one of the outer wall pillars 6 sits pivotably, and a central roof hood 84.

A cross section through a building is shown again in FIG. 12. Here is a different roof construction, namely without roof struts, realized. The roof plates 86 are supported on the one hand on a central, pointed mushroom-shaped Carrier plate 87, which sits at the upper end of the central column 5, and are supported on the other hand with the help of holes on the outer wall pillars 6 from. A screw bar 88 with screw tabs between the roof plates 86 is used the connection of adjacent roof panels 86.

The central column 5 is again surrounded at a distance by a jacket column 90, which can consist of a concrete pipe, for example. The ring cylindrical Gap between the column 5 and the casing column 90 can be used for lines be used. For example, it is possible that rainwater from the Roof tiles 86 collected and a suitable installation in the space derived between 5 and 90 and through the through the grooves 36 in the bottom plates 11 channel finally formed in one of the - in this case not poured out - Foundation troughs 48 is passed, which in this case serves as a cistern. The space 91 may contain filter material for cleaning the water.

The individual panels of the building can easily be against each other and against Columns are thermally and acoustically insulated by a suitable insulation material will. FIG. 13 shows, with reference to FIG. 12, a detail in section of this, namely the floor slab 11, which comes out of the joint between two floor slabs is visible uncut, the tube 6 and one of the vertical Walls 3. The tubular column 6 is in the area of the base plate 1 by a first insulation sleeve 94 and in the region of the vertical wall 3 by a surrounded second insulation sleeve 95, and between the wall 3 and the as An insulating material strip 96 is inserted in the plate section 11 serving the base plate.

Using already described structural details, according to the Invention of a one-story twelve-edged house according to FIGS. 14, 15 and 16 or, with obvious extensions, a corresponding two-story 17 to be built. In addition to those in the previous ones FIGS. 14 and 17 also show roof riders 98, which serve to close the screw bar 88 between adjacent roof panels 86 cover up.

FIGS. 18, 19 and 20 show a one-story building as the structure according to the invention Apartment building with a square floor plan. By protruding parts 61 of each Plate sections 11 'is the square shape of the polygonal course of the pull rope 25 superimposed. The outer wall columns 6 are each between adjacent plate sections 11 'in the outer wall. In this version, As shown in FIG. 20 in particular, the central column 5 is removed and the Plate sections 11 'on load-bearing wall parts 100, which are on the foundation are erected.

FIGS. 21 and 22 show, as with the help of the plate sections 11 ', the protruding one Have parts, extremely varied floor plans can be built, for example a bay window. Again, the eventual house has no central column more, but load-bearing wall parts on which the panel sections are supported.

The Fig.n 23 and 24 illustrate variants to the building or by a peripheral hole in the structure of the traction rope. In these Fig.n are only a few plate sections 11 are shown, the field of plate sections is actually 360 ° around.

Fig. 23 illustrates a - compared to Fig. 3 only in special cases as More expedient - modification such that the circulating element is not an outer circumferential rope, but one in the central area with a certain Distance around the central column 5 circulating element 107, for example again in the form of a pull rope or an open tire or the like is that contracted by a suitable clamping device can be. Anchors 109, which rest on the outer surfaces 28 of the plate sections 11. The tie rods 108 can through holes in the plate sections 11 or, in particular at the execution as a flat iron, on the underside of which run. By spending a sufficiently high clamping force on the revolving element 107 is also achieved by the anchors 109 wedge force exerted on the plate sections 11 is sufficiently large, in order to hold the plate sections 11 and thus the structure together stably.

24 shows a further modification, which also includes tie rods 108 and anchor 109 used. The tie rods 108, however, each run over Turnbuckle 111 to a central sleeve 112, which lies around the central column 5. By uniform tensioning of the turnbuckles 111, the stabilizing effect occurs again on.

25 shows another variant 11 ″ of the plate sections, which are matched by suitable ones Cutouts are reduced to a width suitable for transport purposes. By The outer corner edges 30 are in accordance with two parallel edge lines 121 per plate section Fig. 2 cut off. The edge lines 121 thus form in the outer region of the Plate sections 11 '' each have a rectangular part, which adjoins an inner one on the outside wedge-shaped part connects. The edge lines 121 of this rectangular part can for example, be arranged at a mutual distance of 2.70 m, what the vertical layering of these plate sections in the container enables. The between the edge lines 121 of adjacent plate sections 11 ″ Gussets 122 are filled in by supplementary plates 123, which also include the Pick up outer wall columns 6. For the construction of the supplementary plates 123 there are several options, for example these can in turn prefabricated and be in two parts with a passage for column 6 or can, especially if the building is not to be dismantled again, in the Gusset 122 to be poured from concrete. The pull rope encloses the plate sections 11 '' and the supplementary plates 123 and exercise on both of them towards the center directed force that holds the structure together.

Fig. 26 shows a further modified embodiment, in which the pull rope 25 plate sections 11 pressed towards the center, which with the grooves 36 according to 6 are supported on rods 125 inserted into these channels 36 are. 1, the panel sections 11 on the outer wall panels 3 and / or the outer wall columns 6 on the one hand and on the central column 5 or the wall plates 13 are supported on the other hand, the inner and / or the outer support according to FIG. 26 is omitted by the rods 125 are attached to the outside of the columns 6 and inside at a central star point 126 are welded together. The entire floor or intermediate floor hangs thus as a star network between the columns 6. There can also be only one of these two Supports are available, i.e. the support in the outer wall area Exterior wall panels are made and only inside the connection at the central one Star point 126 may be present, or as in the previous embodiments the central pillar 5 or supporting wall parts 10 in the center area be present and the outside only the rods 125 attached to the outer columns 6 be. The plate sections 11 support at least part of their weight rods 125.

Claims (20)

Building construction composed of plate-shaped components with an outer wall, at least one intermediate floor in the course of the height of the structure and at least one load-bearing support in the center area of the Building, characterized in that the intermediate floor (2, 19) Plate sections (11), each with a wedge-shaped plan, that become too narrow towards the center of the building and that towards each other with their wedge side surfaces (27) under mutual surface pressure apply, and that on each of the plate sections (11) for applying a a tensile element directed towards the central area of the building (25) attacks. Structure according to claim 1, characterized in that the tension element one that runs around the center of the building at a distance Circulating element (25), in the course of which a component (26) is changeable Length is included. Building according to claim 2, characterized in that the circulating element (25) over a substantial part of its length around the outer circumference of the building is excited. Building according to claim 2 or 3, characterized in that the circulating element is a rope (25), the rope ends of which are tensioned (26) connected, pulls in or releases the rope length. Building according to one of claims 1 to 4, characterized in that the plate sections (11) in the center area on a supporting, there Support the support (5) anchored in the foundation. Building according to one of claims 1 to 5, characterized in that the plate sections (11) in the area of the outer wall (3) on columns (6) support, which is incorporated as a supporting column skeleton in the outer wall are. Building according to claim 6, characterized in that the columns (6) Have flanges (20) on which the plate sections (11) are supported. Building according to one of claims 1 to 7, characterized in that the plate sections (11) have the shape of polygonal or circular sectors, which may be truncated in the area of their tip. Building according to claim 8, characterized in that the slab sections (11) on at least one of its corner areas located on the outer wall (30) are truncated and into the thereby between neighboring Plate sections (11) created gusset (62) again in plan wedge-shaped plate sections (63) are inserted or cast. Building according to claim 8 or 9, characterized in that it is a Hull in the form of a straight, uniform prism with vertical edges (45) and thus with the layout of a regular polygon, and that the wedge side surfaces (27) of the plate sections (11) the outer surface of the Cut the prism on its vertical edges (45). Structure according to claim 10, which refers back to claim 6 or 7, characterized in that the columns in the area of the vertical edges (45) of the prism are arranged and between adjacent columns (6) standing outer wall panels (3) are arranged. Building according to claim 11, which refers back to claim 2 characterized in that the circulating element (25) moves around the circumference of the prism is, but in the area of its vertical edges (45) through holes (38) in the plate sections (11) and through cross holes (39) through the Columns (6) cutting off the edge area at right angles to the wedge side surfaces (27) of the plate sections (11) is installed. Building according to one of claims 1 to 8, characterized in that parts (61) protruding from the plate sections (11) in the outer wall area have and the circulation element (25) at least in the area of the protruding Parts at least approximated with regard to the building circumferential bore (65) in the plate sections runs. Building according to claim 5 or one of the back-related to claim 5 Claims 6 to 13, characterized in that the load-bearing support there is a tubular column (5) in the center area of the building. Building according to claim 5 or one of the back-related to claim 5 Claims 6 to 14, characterized in that the load-bearing support (5) vertical supply and / or in the center area of the structure Contains waste disposal lines for the building. Building according to one of claims 1 to 15, characterized in that along the wedge side surfaces (27) of the plate sections (11) in these wedge side surfaces grooves (36) running away from the center area are formed are in which horizontal supply lines run for the building. Building according to one of claims 1 to 16, characterized in that on the wedge side surfaces (27) of the plate sections (11) at least in some areas and for matching wedge side surfaces in matching Positions towards the inside of the plate sections to be tapered Grooves (36) running away from the center area are formed, in which in both adjoining plate sections (11) abutting the channel walls Centering body (53) are inserted. Building according to claim 16 or 17, characterized in that of the Channels (36) on the wedge side surfaces (27) further channels (37) smaller Extend transverse dimension to the top and / or bottom of the plate sections (11) run and for adjacent wedge side surfaces (27) are in matching positions. Method for erecting a building according to claim 14, characterized in that that with the construction of the central tubular column (5) begins. A method according to claim 19, characterized in that according to Erection of the central tubular column (5) on this one cantilever arm (77) articulates and this cantilever (77) for the formation and processing of others Building elements served.

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