DE2037472A1 - Construction element for buildings - Google Patents

Description

Building element for buildings The invention relates to a building element for buildings.

The high construction costs for buildings essentially result from that the construction of buildings is extremely wage-intensive. There are therefore Everywhere efforts are under way, in construction through prefabricated parts that are in larger ones Series can be made to reduce costs. Generally exist the components made of larger wall or

Ceiling elements that are assembled in place and connected to the construction will. The assembly of such prefabricated parts, however, requires great expertise and care to their correct alignment and connection, so that here too the construction costs are relatively high.

There are also components are known in which entire space units are produced in a specially set up factory and that according to their Transport to the installation site must be placed on a foundation made on site.

These are mostly smaller and from the architectural point of view Education of more undemanding buildings, for example garages.

The object of the invention is to create a construction element for buildings, that can be set up with a Nini in terms of cost and time, good possibilities for variation with regard to the room size, can also be used for multi-storey buildings and if the atatic conditions are favorable, the construction will be more architecturally appealing Building permitted.

This object is achieved according to the invention in that the components in cross section forms a straight hexagon and vertical side walls, of the upper edges of the side walls at an angle sloping upwardly sloping ceiling sections, which meet in the middle between the side walls in an upper part, from the under ren edges of the side walls at the same angle obliquely downwards running sub-floor sections that meet in a lower vertex, and a floor attached in the area of the lower edge of the side walls and that several components, each offset by half an element width, with one another Adjacent ceiling and subfloor sections can be combined to form multi-storey buildings are.

This component makes it possible to build a building by simply juxtaposing, To put together components one behind the other and on top of one another. Included the upper structural element centers itself as a result of the ceiling slope. If after a preferred feature of the invention the angle between the horizontal and the ceiling and sub-floor sections is less than the static friction angle of the used material, then the building elements can be used in a building without fastening be placed next to and on top of each other.

That with all of the above-mentioned parts advantageously from one Piece of existing component is expediently produced in transportable lengths and put together to form a unit by simply stacking them one behind the other. Because the good centering are optically disruptive offsets at the joints not to fear. The one that forms between the floor and the sub-floor On the one hand, the lower compartment forms good sound and heat insulation and is used also for laying the entire installation, which is therefore easily accessible. The component can also be used in the manufacturing plant with a large part of the interior fittings (especially the sanitary facilities, door and window frames, etc.) and with finished inner and outer surfaces, but at least for easy processing prepared, delivered.

Further advantages and features of the invention emerge from the aneges and the description in connection with the drawings. Some examples of the invention are shown in the drawing and are explained in more detail below. 1 shows a front view of a building made of structural elements according to the invention, FIG. 2 shows a variant of such a building, FIG. 3 shows a section along the line III - III in Fig. 4, seen from above, Fig. 4 shows a cross section along the line IV IV in Fig. III, Fig. 5 is a longitudinal section along the line V - V in Fig. 3 and Fig. 6 shows a plan view of a plurality of structural elements assembled into units in a reduced form Scale with associated gangway elements.

Fig. 1 shows the front view of a four-story building (E + 3), which is composed of components 11 according to the invention. The three floors form residential units 12, while the lower floor consists of land units 13.

Fig. 2 shows a three-story building in which the two upper Floors consist of residential units 12, while the lower floor of one am Construction site produced substructure is formed, which has open fronts and as Can serve under parking space for motor vehicles. As can be seen from the following, the construction elements according to the invention are particularly suitable for hotel and apartment buildings, For example, dormitories or the like. However, they are also for numerous other purposes excellently suitable. For example, the building according to FIG. 1 could be an apartment building while FIG. 2 could represent a motel, each with two motor vehicle parking spaces for the two overlying room units 12 are available.

In Fig. 3 is a plan view of a unit 12, for example a unit for a hotel or hotel, shown.

The unit 12 consists of three components 11, 11 ', 11 "and has in the illustrated embodiment, overall dimensions of 5 m wide, 6 m long and a total height (Fig. 4) of approx. 3.25 m (external dimension). The three components 11, 11 ', 11' 'each have the same length, in the present case each 2 m, so that they are easily transportable. The selected UL length depends on the transport options and regulations as well as the weight of the component. The front unit 11 is at Embodiment open, d. H. produced with a laterally insertable end wall 15, the windows o. the like.

zthiilt. The intermediate element is aligned with the front element 11 11 'on and on this the wet element 11' ', the partition walls 16, its toilet and shower room 17, an end wall 18, an entrance door 19 and a hallway 20 contains. The component 11 ″ becomes one with the partition walls 16 and the end wall 18 lumpy and can already be done in the manufacturing plant with the door frames, the floor tiling, the sanitary facilities and the installation.

Fig. 4 shows a cross section through the component 11 ″. It is in one piece Cast from reinforced concrete and has vertical side walls 21, a sloping one Ceiling, a sloping sub-floor and a floor 22. The ceiling consists of two Ceiling sections 23, 24 which are inclined upwards at an angle and in one Vertices 25 meet. Both ceiling sections have the same length and the same Tilt angle. The angle of inclination is 26 in the illustrated embodiment 9 °. The angle of 9 ° has proven to be particularly advantageous, but can be used in certain limits can be varied. However, it should be so large that there is still enough space Self-centering effect, d. H. There is security against lateral displacement and should be smaller than the static friction angle of the material surface, with certainty these conditions should be fulfilled between 5 ° and 150.

Sub-floor sections begin at the lower edges of the side walls 21 27, 28, which, also at the angle 26, are sloping downwards and on the center line of the component meet in a lower vertex 29. The floor 22 is a straight plate, which in the area of the lower edges of the side walls 21 with these connected is. The entire component is preferably produced in one piece. Between the floor 22 and the sub-floor 27, 28 form a sub-compartment 30 of flat triangular shape that provides good sound insulation and the whole Installation records. The lower compartment 3o can either from its front sides or be accessible from above through a lockable hatch.

To build a building out of structural elements, the substructure is needed first 14 made of in-situ concrete. He stands on a foundation 31 and also owns supporting side walls 32, between which ceiling sections are the same Dimensions and inclination are like the ceiling sections 23, 24 (Fig'.2).

On the substructure 14 components 11, 11 ', 11 "are placed, the Each form a unit 12. The components are raised with a crane the substructure is set and not otherwise connected to it. Particularly beneficial a building can be built from structural elements according to the invention as a "couple", d. H. each with two opposing units offset by 1800 12 and intermediate aisle 33 (see FIGS. 5 and 6).

On the first row of units 12, which are on the substructure 14 next to each other stand, a further row of units 12 is put on, specifically in FIG. 2 Set back half a division to the left. Need for this type of construction the individual components not to be connected to each other because they are due to the cooperating slope of the ceiling sections with the sub-floor sections center and hold yourself. In the preferred manufacture from concrete, the Components heavy enough to withstand the maximum wind ventilation in almost all cases gain weight. The shape of the building elements themselves is statically extremely favorable, so that you can work with relatively little reinforcement. With multi-story Buildings can also be varied by adding the structural elements to the reinforcement get stronger reinforcement on the lower floors. The same applies the more highly stressed components in the area of the side fronts. In doing so, however Advantageously, the same wall thickness can be maintained everywhere, so that this too Variation can be carried out in the manufacturer's works without changing the formwork.

In Fig. 1, the substructure consists of components that essentially correspond to those described so far, but have a different interior design. In the example shown, landing shops are housed in the lower units.

The lower units 13 are set on foundations 34, which are in the area of the respective side walls. In between there is a trotting Bulk bed 35, for example an egg bed. It can be seen that the foundation is extraordinarily simple. Sufficient thermal insulation downwards is through guarantees the under-floor space 30, in which underfloor heating is also installed could be. In Fig. 1 one of the elements 12 is arranged protruding. In this The element can trap with the elements adjacent to it by an adhesive, for example a commercially available concrete work adhesive must be connected. This measure can also be used for Components are used elsewhere, if it is for static reasons necessary is.

From Nig. 1, 4 and 5 it can be seen that the topmost Unit of components covering elements 36 can be placed. You serve for thermal insulation of the uppermost units and are preferably with cavities 37 provided, which can be filled with insulation. Preferably, the cover elements 36 executed in the form of a standing V, so that it forms the joint between two adjacent Cover elements. In the region of the apex 25, the cover elements 36 abut one another and covered by a pirate cover 38.

The outward-facing hexagonal joints between the single cells Components are advantageously covered by a cladding 39, which at the same time Has a thermal insulation effect and prevents moisture from getting between the components penetrates. If the end wall 15 is inserted subsequently, the cladding 39 also covers the joint between this and the component. It should be noted that the cladding 39, possibly combined with the end walls 15, also as a continuous facade panel could be designed which, if the facade consisting of hexagons architecturally is undesirable, the hexagonal division is covered.

In Figs. 5 and 6, the structure of a building is as "Couple" to be recognized with central aisle. For this purpose, the components 11 'have on their front wall 18 projections 40 a little below the floor area, suspended in the gangway elements 41 will. The passage elements 41 have the shape of a downwardly open U with slots in the U-legs so that they are between the opposing projections 40 of the opposite units 12 are set. The gangway elements 41 are closed at its bottom by a suspended soffit ceiling 42, which is detachable are attached to the ends of the U-legs, for example by a push-button Attachment. The entire installation can run in the resulting cavity 43, for example loading or

Vent channels 44, sewers 55, etc .. Since the cavity 43 because of the hexagonal shape of the adjoining components, each alternately on the Adjoining the lower unit of the upper unit and the inner room of the lower unit, the installation is particularly easy. For example, the Sewer pipes 45 of a unit directly into the cavity 43 below the associated Passage element 41 are guided, while a vent 46 (see also Fig. 4) directly can flow into the cavity above. The entire installation can can thus be attached in a simple, clear and easily adequate manner.

On the top floor, as shown in Fig. 5 on the left side of the corridor is indicated, prefabricated elements 47 can also be used, which are based on the Components or the cover elements 36 are placed.

The vertical connection between the central aisles 33 in the case of multi-storey buildings Buildings create stairs 48, which are preferably offset to one side and take up about half the width of the aisle. Since in the area of the stairs the corresponding Gangelemento 49 can rest on the projections 40 on one side only they are dashed in their area adjacent to the stairs on one in FIG. 6 indicated carrier 50, which is held by supports 51. The supports 51 can pass through all floors and preferably consist of several, in Longitudinal direction of the aisle. pipes placed one behind the other with an outer cladding.

The pipes 52 can also be used as vertical installation lines serve, so that, for example, one for the electrical wiring, one for rainwater, for sewage, etc.

is used.

It can be seen that the component according to the invention has great advantages offers. Besides the simple set-up and the static advantages, one is extraordinary good sound insulation and heat insulation 'given without additional costly measures. Each unit is separated from the other by two walls and one possibly in between Separate air space. In particular, the footfall sound insulation is very good because of the underneath the unit the floor, the underbuild and then a double Wall. ensure excellent shield insulation. The fact also has a favorable effect from the fact that the units are each offset by half a width division from one another are, because the side walls are in the area of the greatest vibration amplitude of the floor ensure that the units below are braced. The same applies the thermal insulation, whereby the resulting air spaces are particularly advantageous. Another major advantage is that the units are self-supporting and therefore know how to withstand the greatest tremors without having anything built up from them Building tends to collapse, This is particularly advantageous in earthquake areas, etc. a shock can at most a slight displacement of the units against each other occur, which, however, do not affect cohesion in any way. Balls required, supports can be arranged or cast between the floor and sub-floor be.

The component according to the invention allows in the room design great variation possibilities. There are also numerous modifications for this purpose experienced without departing from the scope of the invention. For example, the Tilt angle of the ceiling vary within wide limits. This is how you will, for example, in colder areas with large snow depths choose the angle a little steeper and possibly a suspended one Put in the false ceiling to provide excellent thermal insulation on the upper floor to get. With the relatively small helix angles that are normally only necessary hanging in a false ceiling is usually not necessary. With appropriate Reinforcements, it is also possible to provide openings in the side walls, so that individual units can also be connected transversely to their longitudinal axis. In Upper construction elements can also use opaque materials in the roof area will.

Corresponding protrusions can be used to create balconies etc. For a building with "one-horse" units is particularly suitable with the construction method Arbours. These could either be attached to the outside of the units or simply be formed by appropriate wall recesses and partitions, so that the overhanging floor and sub-floor sections form the aisle. With each other Units to be connected can, in addition to the described gluing, also be encapsulated made with in-situ concrete, for example gn undercut recesses in the reinforcement elements inserted before the pre-casting can be assessed, that hold the adjoining components together.

It has been found that even with a possibly higher consumption built on concrete building from construction elements according to the invention considerably more cost-effective than in the conventional construction. This mainly results from the considerable savings in labor and the saving of expensive reinforcements. The static requirements, ins-.

special in the ceiling area are due to the pre-tensioning that occurs so cheap that it is possible to save on these expensive materials in particular. Because of the slight possibilities of variation, the component according to the invention is suitable also for smaller building units, for example single-family houses.

Claims (23)

Expectations 1. Components for buildings, characterized in that it is in cross section forms a straight hexagon, and vertical side walls (21), from the upper ones Edges of the side walls (21) at an angle (26) sloping upwardly sloping ceiling sections (23, 24) in the middle between the side walls (21) in an upper apex (25) from the lower shrouds of the side walls at the same angle (26) sloping downward underbody sections (27, 28), which in a lower Vertices (29) collide, and one in the area of the lower edge of the side walls (21) has attached floor (22), and that several components (11, 11 ', 11' ') each offset by half an element width, with adjacent ceiling and ceiling panels Subfloor sections (23, 24; 27, 28) can be assembled to form multi-storey buildings are. 2. Component according to claim 1, characterized in that the component (11, 1 ', 11 ") with side walls (21), ceiling and sub-floor sections (23, 24; 27, 28) is made from a transportable piece. 3. The component according to claim 2, characterized in that the floor (22) is also made in one piece with the component (11, 11 ', 11 "). 4. Component according to one of claims 1 to 3, characterized in that that the component (11, 11 ', 11' ') with possibly Partition and end walls (15, 16, 18) is made in one piece. 5. Component according to one of claims 1 to 4, characterized in that that several components (11, 11 ', 11' ') with one of the transport dimension exceeding nisct Length lengthways to form a unit (12, 13) can be attached to one another. 6. Component according to one of claims 1 to 5, characterized in that that the angle (26) between the horizontal and the ceiling and sub-floor sections (23, 24; 27, 28) is shallower than the angle in the regular hexagon. 7. The component according to claim 6, characterized in that the angle (26) is between 5 and 150. 8. Component according to one of claims 6 or 7, characterized in that that the angle (26) between the horizontal and the ceiling and sub-floor sections is less than the static friction angle of the material used and that the components can be placed side by side or on top of each other to form a building without fastening. 9. Component according to one of claims 1 to 7, characterized in that that the components (11, 11 ', 11' '), especially in the area of the side fronts of the Building and projecting units or components by gluing to one another are connectable. lo. Component according to one of Claims 1 to 9, characterized in that that the window o. The like. Containing end wall (15) of the component (11) or the Unit (12, 13) can be used separately. 11. Component according to one of claims 1 to io, characterized in that that in the area of the side fronts and / or in multi-storey buildings the lower components (11, 11 ', 1111) with the same wall thicknesses of all components are provided with stronger reinforcement. 12. Component according to one of claims 1 to 11, characterized in that that in front of the building made up of components (11, 11 ', 11 ") the hexagonal shape covering facade panels, possibly extending over several structural elements can be set. 13. Component according to one of claims 1 to 11, characterized in that that the joints between building elements (11, 11 ', 11 '') on the fronts of the building through cladding elements that may contain insulation (39) are covered. 14. Component according to one of claims 1 to 13, characterized in that that in the undersub space formed between the floor (22) and the sub-floor (27, 28) (30) the installation, ventilation, etc. proceeds0 15. Component according to one of the claims 1 to 14, characterized in that a building consists of units (12, 13) or structural elements (11, 11 ', 11' ") is constructed of different lengths. 16. Component according to one of claims 1 to 15, characterized in that that the components (11, 11 ', 11 ") on a substructure produced on the type (14) are set, which has a support surface adapted to the sub-floor (27, 28). 17. Component according to one of claims 1 to 15, characterized in that that the substructure of components (13) of essentially the same design as the overlying components (12) is made. 18. The component according to claim 17, characterized in that the lowest Components are placed on foundations (34) in the area of the side walls (21) attack the sub-floor (27, 28) and that the between the foundations (34) lie-; de part of the sub-floor is supported on a bed of bulk material (35). 19. Component according to one of claims 1 to 18, characterized in that that on the upper structural elements (11, 11 ', 11' ') of a building of the shape of the ceiling sections (23, 24) fitted insulating cover elements (36) are attached. 20. Components according to claim 19, characterized in that the Covering elements (36) have the shape of a standing V and the joints between them are side by side arranged components (11, 11 ', 11 ") cover. 21. Component according to one of claims 1 to 20, characterized in that that on one end face of the components (11 ″) or the units (12) made of components Projections (40) are provided into which gang elements (41) can be suspended. 22. Component according to claim 21, characterized in that the gear elements C41> in the case of two-horse construction between building elements facing each other or Units of structural elements can be suspended and essentially have the shape of an inverted one U have and that inside the U the common lines for installation, ventilation or the like (44, 45, 46) are relocated. 23. Component according to one of claims 1 to 22, characterized in that that in the area of passageways, such as stairs or the like. (48) vertical installation lines receiving supports (51) connected to one another by supports (50) next to the Wear remaining passage elements (49) breakthroughs.