DE1810434C3 - Building structure - Google Patents

Description

The invention relates to a building structure with a <> υ laterally projecting or spans bridging the supporting framework. Such a high structure is already known (magazine "Baumeister". 19bb, booklet β. Plate 38). In this building structure, levers are lifted from the ground. Spans übeibrük- ^h i> kende Supporting structure provided which are formed by diagonal stiffened space bar works as a fixed spatial Rastersvstem for changing internals. Since there the supporting structure spanning spans have continuous structural parts over the entire span, these supporting structures cannot be changed. Another disadvantage is that the interior of the supporting structure is severely hindered in its usability or permeability by the diagonals.

With the move towards the consolidation and functional mixing of large building complexes or collections In cities, however, adaptable structures or prefabricated systems are necessary that set up quickly and easily according to the rapidly changing needs, over old structures or have certain properties removed, converted and / or dismantled again. It is particularly desirable that such an adaptable building structure, which allows a high density of buildings, in all or at least different areas or parts both vertically and horizontally Direction by removing, building or remodeling walls, supports, ceilings or the like. Completely redesigned can be.

The invention is therefore based on the object of creating a Huchbauwerk of the type mentioned above, whose supporting structure has the highest possible rigidity and low material and construction costs Has permeability and enables diverse and changeable building shapes. This is according to the invention achieved by the fact that the supporting structure is made of storey-high, prefabricated, closed, corner stiffeners Frame is formed, which abut one another in at least two dimensions in the vertical network planes of the supporting structure and the frame legs with those of the adjacent frames are parallel to each other and frictionally, but are releasably connected.

This configuration of a building according to the invention achieves that despite less diagonals Training and free permeability of the supporting framework in its network planes such a great rigidity it is achieved that spans bridging or spans in an economical manner with few standard elements Cantilever structures can be created. By arranging the frames in the vertical network levels it is achieved that the frames are in the most favorable position for absorbing the load moments. Through this the frames can be relatively thin in their dimensions b / w. have little depth and therefore not only easy transport, but also easy assembly in all three dimensions of the supporting structure enable. There is no need for external scaffolding. The support frame can be made with the aforementioned framers can be created in the free porch and then acts as a scaffolding itself.

The adjacent horizontal and verti cal legs of adjacent corner stiff yards Men jointly form supports or girders de: supporting framework, which the high bending or Einspan absorb niingsmomenie in a favorable way. Since di < Connection of two adjacent bars of two adjacent frames at zero voltage / o nc lies and there essentially only thrust forces occur, simple connection means such as bolts are sufficient Wedges or the like / ur power transmission.

Due to the under / Tensioning the supporting framework results in a high level of compaction of the buildings through the terraced building form and of low Gesehossiiefe without disadvantages in de

Exposure allows. This also allows large interiors in the building structure without any supporting supports be created.

Structures are already known which are made up of juxtaposed Cell units exist, these with their cell walls or with their to the Zdlenecken legs or rods lie against each other (FR-PS 1269 321). However, this is one Material-intensive construction, which also has no overhanging or spanning width Construction allows. Such a structure can also not be designed in any way, be easily rebuilt or partially be dismantled again. Lateral unsupported attachment of cells to neighboring cells is just as little possible without the risk of collapse.

In the building structure according to the invention, the frames expediently abut at right angles with their edges directly to each other. The legs can be roughly or substantially square frame They have a rectangular cross-section that their sides extending in the plane of the frame are wider than theirs Are perpendicular to this extending sides. The positive connection of the juxtaposed Frame can be made by arranged at their corners anchor pieces that are adjacent to them Frame are attached. In order to enable a slip-proof mutual anchoring, the frames appropriately profiled on their opposite end faces, for example toothed. Even the anchor pieces resting on the profiled end faces of the frame are useful in this case corresponding counter-profiles that snap into the profiles of the frame elements.

In the drawing are exemplary embodiments of the invention Building structure, which are described in more detail below:

F i g. Fig. 1 illustrates, in partial oblique view, an embodiment of a partially erected one Building structure according to the invention;

F i g. 2 to 4 show three in a schematic representation various examples of the many possible basic forms of the building structure according to the invention;

F i g. 5 shows in an oblique view the formation of a Corner connection of the corners forming the knot of a supporting frame in three different dimensions juxtaposed frame;

F i g. 6 shows an embodiment of a frame in two-part design in an oblique view;

F i g. 7 illustrates one way of assembling the frame according to FIG. b in a schematic representation;

F i g. Figure 8 shows, broken away, a corner of another embodiment of the frame;

Fig.9 is a cross-section through four juxtaposed set / te frame according to line XII-XH in Fig. 1;

('' I g. 10 to 15 show the same cross-sections similarly juxtaposed frames with a different cross-sectional design.

In the case of the FIG. 1 shown embodiment, the structure according to the invention has a supporting structure, which is a structure built up uniformly in all three dimensions in the form of a three-dimensional framework Has. This spatial framework consists of storey-high, Corner stiff frame 1 each of the same square shape and size. The frames are like that relocated that at each node twelve frames with the edges of the outside of their respective neighboring ones ParaHelen frame legs lie in pairs directly next to each other, parallel to each other. This is done by four at the edges of abutting parallel frame legs, a gap 3 enclosed, which at the truss nodes to accommodate one of the six in the six directions of a truss node extending legs or spars 4 of an at kerstückes 2 is used. The standing frames

ίο form the supports of the supporting framework, during which horizontal bars are formed by both the standing and the horizontally laid frames. The flexural rigidity of the frame corners is due, among other things, to the cross-sectional enlargement 7 of their inner corners guaranteed.

Through the in F i g. 1 shown three-dimensional laying of the frame 1 of the same shape and size the six truss struts that meet at each frame node are formed, with with a firm connection of the abutting frames a stable one due to their rigid corner formation Frame structure is obtained. The mutual connection of those next to or on top of each other. Frame can for example by anchoring, bolting, riveting, clamping, by wrapping the adjacent frame legs, welding together or the like. Take place.

In Fig. 5 is, for example, a connection of the side by side or superimposed frame 1 with the spars 4 of the inserted into the framework node Anchor piece 2 with bolt 50 is shown. To increase the slip resistance between the junction piece 2 and attached frame 1, the arms of the node pieces are provided with a profile 5, while the outer sides of the frame legs facing these have corresponding counter-profiling 6, which engages in the profile of the node pieces 2.

As a result of the rigid corner design of the frames and their mutual anchoring in all directions it becomes possible not only to stack the frames vertically, but also horizontally In the direction of bridge-like overvoltage construction, they can be juxtaposed or on core structures or the like. To be arranged cantilevered laterally. Individual such possibilities are shown in FIG. 2 to 4 schematically shown.

F i g. 2 shows a supporting structure in which two further such frame cells with their vertical frame legs are attached to the vertical frame legs of one of six frame cells 1, which are juxtaposed in three dimensions, with their vertical frame legs freely cantilevered laterally. F i g. 3 shows a skeleton structure projecting laterally from a core tower 8 in an asymmetrical design. It follows from this that it is also possible to have the frames used according to the invention butt against each other only in two dimensions at different nodal points of the supporting structure, for example in the case of the one in FIG. I to omit individual frames 1 and thus to form larger column-free or girder-free interiors.

In Fig. 4 shows a fragmented building complex, which is formed by corresponding vertical and horizontal juxtaposition of frame 1. This The building complex has partially supported one another on the ground, formed by frame 1 Siabwerkzcllen 9. Other cells 12, 13, 14 form from

Pylons 10, ti or cantilevered supports, spans bridging frameworks, which also, such as B. the cells 14 are arranged stepped. The latter are among others suspended by means of ropes 15 on a tensioning element 16, which extends from the head of the pylon U to an adjacent, not shown further pylon extends. This figure shows the various types particularly clearly Possibilities for arranging the frame cells formed by the frame and the possibility their free cantilevered lateral stem.

In the case of the FIG. The embodiment shown in FIG. 1 is the rod-like structure formed by the frame 1 Support frame filled with floor panels 32, ceiling panels 33 and room partitions 34. The floor panels 32 are supported on bars 35, which are lying on the legs joined together to form horizontal straps laid frame 1 rest while the ceiling panels are suspended from these straps. The room partitions 34 are mounted in any way between the ceiling and floor panels.

The in F i g. 1 frame shown can not only be in one piece, but also in several pieces, for example as in Fig. 6 shown, be formed in two pieces. Such a multi-piece training can be useful be if the frame would get too large dimensions in one-piece design to be in to be able to be transported and assembled in a reasonably economical manner.

The connection of the individual sections 36. 37 one Frame can for example by bolts. Rivets. Screwing, welding or the like. Take place. The connection points are expedient, as in the case of FIG. 7 shown embodiment in the zero voltage zone 38 placed, so in the middle of the floor, with the subdivided frame legs extend in the vertical direction.

In Fig. 8 is the cut corner of a frame shown, in which the one leg 39 made of a solid rod and the adjoining frame leg 40 consists of a truss rod. Both legs are rigid with one another by corner plates 41 tied together. This embodiment of a frame is intended to show that its individual legs are basically can be of different construction.

F i g. 9 shows a cross section through a support formed by four frames 1, which frames in their Legs have a roughly square full cross-section and are made of reinforced concrete. The one included by them inner space 3 can serve to accommodate installation lines or as Cooling water duct can be used if this is to counter fire hazards.

In the F i g. 10 to 15 are lawful to each other in the same way Frame shown with different leg cross-sections. However, this is all of these frameworks A common feature is that they have a shallow depth, that is, that they are either square or rectangular Leg cross-section have that their leg sides extending in the plane of the frame are wider than their thigh sides extending perpendicular to it. This ensures the possibility of the frame legs to let them collide in three dimensions forming a spatial framework without thereby to obtain a relatively large space 3 between the legs. Such a space is used in the in F i g. 15 shown cross-sectional formation of the frame legs completely avoided. Both Embodiments according to FIGS. 9 and 10 exist the frame legs made of reinforced concrete, in which in FIG. 11 illustrated embodiment, they can made of concrete but also made of steel or other metal, wood or plastic, as is the case with the in F i g. 12 illustrated embodiment. The embodiment according to FIG. 11 also illustrates the formation of the frame as a double frame according to the exemplary embodiment according to FIG. 8. The legs of the frame can also be made of steel profiles different cross-sectional shapes exist, such as the exemplary embodiments according to FIG. 13 to 15 show.

For reasons of fire protection, the frames can be equipped with a fire-retardant coating be. This sheathing can be formed by a cladding formed from prefabricated fittings or else can also be produced by a protective coating.

In the example shown in Fig. 15 is also the space formed by the frame abutting one another is divided into four channels 42, each of which can form an installation or cooling water channel. The gaps cannot only useful to accommodate anchor gaps 2 at the corners of the framework cells, but also with special Advantage for the inclusion of tension or pressure elements in the form of tension ropes or rods, Pressure rods or the like. Serve.

In statically critical zones of the one spatial Support frame according to the invention produced in the form of frame elements forming sabwork can be a bundling, so a merging of several frames 1 take place next to one another perpendicular to the frame plane.

For this purpose 3 sheets of drawings

Claims (10)

Patent claims: 1. Building structure with a laterally cantilevered supporting structure or spans bridging, characterized in that the supporting framework is formed from floor-to-ceiling, prefabricated, closed, corner-stiff frames, which in at least two dimensions abutting in the vertical network planes of the supporting framework are ι ο and whose frame legs lie parallel to one another with those of the adjacent frames and are non-positively but releasably connected. 2. Building structure according to claim 1, characterized in that the frame (1) at right angles with their edges abut directly. J. Building according to claim 1, characterized in that the legs of the frame (1) approximately essentially square or such angular cross-section that their in the plane of the frame extending sides are wider than their perpendicular sides (Fig. 9 to 15). 4. Building structure according to claim 1, characterized in that the non-positive connection the juxtaposed frame (1) carried out by arranged at their corners anchor pieces (2) attached to the frame adjacent to them. 5. Building structure according to claim 1, characterized in that the frames (1) at their each other opposite end faces profiled, for example, are toothed. 6. Building structure according to claims 4 and 5, characterized in that the profiled on the Front sides of the frame (1) adjacent anchor pieces (2) have appropriate counter-profiling. 7. Building structure according to one or more of claims 1 to 6, characterized in that the Frame (1) are bolted or welded to one another or to the anchor pieces (2). 8. Building structure according to claims 1 and 4, characterized in that the in the same dimension installed frame (1) in a distance corresponding to their leg thickness are and in the space (3) given between the frames that the Connection ensuring anchor pieces (2) are arranged. 9. Building structure according to claim 1, characterized in that the corners of the frame (1) through Cross-sectional enlargement (7) are stiffened. 10. Building structure according to claim 1, characterized in that that the frames are constructed in several pieces.