DE20111225U1 - building - Google Patents

Description

Building

There is a wide variety of building forms. High-rise buildings, terraced houses, bungalows, different roof shapes for houses and other house forms that meet different functional requirements are well known. The task is to constantly develop these building forms, whereby the functional requirements are often combined with futuristic design.

The invention is based on the task of developing a futuristic building that can be erected without a special foundation, whereby the building ground can also be loaded by ground movements, such as subsidence or earthquakes.

According to the invention, the object is achieved in that two shells arranged on top of each other form a building which is held above a floor by at least three supports, and an access to the building is not statically connected to the floor. Further forms of the embodiments are shown in claims 2 to

The invention is explained in more detail below using an embodiment. The accompanying drawings show:

Figure 1: a schematic representation of a building; Figure 2: a schematic representation of the building on four supports; Figure 3: a schematic representation of the building with a supporting element

and six supports;
Figure 4: a shell-shaped support of a column with damping element and level control;

Figure 5: a hydraulic support of the building with a pneumatic

Decoupling of earth movements;
Figure 6: a schematic representation of an extended section of a

segments;
Figure 7: a schematic representation of the building with a

building segment;
Figure 8: a schematic representation of a wall element between the

Segments and
Figure 9: Section AA according to Figure 8

Figure 1 shows a schematic representation of a spheroidal building 1. The building 1 is formed by two shells 2, 3 placed on top of each other. The surfaces of the two shells 2, 3 have the shape of spherical domes of a spherical section. This spheroidal building 1 is held above a floor 5 by supports 4. The supports 4 each stand, for example, on a foundation 9 that is anchored in the floor 5. An access 6 to the building 1 is not statically connected to the floor 5. The building 1 can also have the special external shape of a rotational ellipsoid. It is also possible for the shells 2, 3 to have the surfaces of conical sections or pyramidal sections. In the building 1, segments 7 are arranged horizontally and divide the interior of the building 1 into individual rooms 8 arranged one above the other. The shells 2, 3 can be held in different ways by the supports. In Figure 2, there are four supports 4 that hold shells 2, 3, with the upper shell 2 and the lower shell 3 being individually attached to the supports 4. It is also possible for the upper shell 2 to rest on the lower shell 3 and for the lower shell 3 to be supported by the supports 4. Figure 3 shows another possibility of supporting the building 1. Here, a support element 10 is formed on the lower shell 3. Six supports 4 are fixed to the support element 10.

which hold the shell 3 with the shell 2 placed on the support element 10. In general, the supports 4 can be detachably attached to the building 1. The different shapes of the two shells 2, 3 are not shown. It is therefore possible for the upper shell 2 to be less convexly curved than the lower one, or vice versa. Figure 4 shows a foundation 9 which forms a shell-shaped support 11 in which a self-centering spherical bearing 12 of a support 4 is supported. The support 4 here has a level control 13 and a damping element 14. This design of the supports 4 and the shell-shaped support 11 of the foundation 9 serves to decouple the building movement from that of a ground movement, for example in the event of an earthquake, with the first immediate shock dampening being carried out by the damping element 14 and subsequently, in the event of ground faults, the level control 13 aligns the building 1 horizontally again. Figure 5 shows another possibility for damping and level control. Here, the supports 4 for level control are mounted on hydraulic elements 16, and the hydraulic elements 16 are operatively connected to a pneumatic support 15 which acts as a damping element and which rests on a support plate 23 on the floor 5. It is also possible for the supports 4 to be designed as longitudinally extendable, electronically controlled telescopic arms for level control. It is particularly advantageous that the buildings 1 and the segments 7, which divide the building space into individual spaces 8 arranged horizontally one above the other, can be manufactured using lightweight construction. This means that the building 1 can be transported as a whole or in a few pre-installed units, particularly by air, and brought directly to the installation site. Due to its low weight, the building 1 can also be anchored on calm water, with the supports 4 acting as lateral stabilization and serving as anchoring. A further design of the building 1 (not shown) consists in the fact that the upper shell 2 and lower shell 3 each form a building part, with the upper shell 2 being offset on the

lower shell 3. The horizontally formed individual rooms 8 can be divided into sectors 18, which are arranged so that they can move on sliding supports. As shown in Figure 6, they can form a retractable balcony 19 on the building. In a further embodiment, which is shown in Figure 7, at least one additional building segment 20 is arranged between the shells 2, 3. Of particular importance for the interior design and the statistics of the building is that the segments 7 are connected to one another by wall elements 21, which divide the individual rooms 8 into further rooms, as shown in Figure 8. According to Figure 9, the wall elements 21 are double walls, which consist of individual load-bearing structural elements 17, which run both longitudinally and transversely and are arranged in such a way that they create space for built-in elements 22, such as furniture, installations. Not shown, contributes to the futuristic design when the buildings 1 are placed on top of one another and connected to one another to form a high-rise building. They can also form building complexes when arranged next to each other and connected by corridors.

Reference symbols Building 1 Bowl, top 2 Bowl, bottom 3 Support 4 Floor 5 Access 6 segment 7 Single rooms 8th foundation 9 Carrying element 10 Edition 11 camp 12 Level control 13 Damping element 14 Pneumatic support 15 Hydraulic element 16 Structural elements 17 Sectors 18 balcony 19 Building element 20 Wall element 21 Installations 22

23 Support plate

Claims (23)

1. Building, characterized in that two shells ( 2 , 3 ) arranged on top of one another form a building ( 1 ) which is held above a floor ( 5 ) by at least three supports ( 4 ), and an access ( 6 ) to the building ( 1 ) is not statically connected to the floor ( 5 ). 2. Building according to claim 1, characterized in that the shells ( 2 , 3 ) have the surfaces of spherical caps of a spherical section, which, arranged one on top of the other, form a spheroidal building ( 1 ). 3. Building according to claim 1, characterized in that the building ( 1 ) is designed as an ellipsoid of revolution. 4. Building according to claim 1, characterized in that the shells ( 2 , 3 ) have the surfaces of conical sections. 5. Building according to claim 1, characterized in that the shells ( 2 , 3 ) have the surfaces of pyramid sections. 6. Building according to claim 1, characterized in that an additional building element ( 20 ) is arranged between the shells ( 2 , 3 ). 7. Building according to claim 1, characterized in that the upper shell ( 2 ) rests on the lower shell ( 3 ) which is supported by the supports ( 4 ). 8. Building according to claim 1, characterized in that a part of the lower shell ( 3 ) is designed as a supporting element ( 10 ) for the supports ( 4 ) of the shells ( 2 , 3 ). 9. Building according to claim 1, characterized in that each support ( 4 ) is supported by a spherical bearing ( 12 ) on a shell-shaped support ( 11 ) which acts as a self-centering bearing of a support ( 4 ), the support ( 4 ) having a level control ( 13 ) and a damping element. 10. Building according to claim 1, characterized in that the supports ( 4 ) rest on hydraulic elements ( 16 ) for level control, wherein the hydraulic elements ( 16 ) of each support ( 4 ) are connected to a pneumatic support ( 15 ) which acts as a damping element and is arranged on a support plate ( 23 ). 11. Building according to claim 1, characterized in that the supports ( 4 ) are designed as telescopic supports which can be extended longitudinally by an electric motor. 12. Building according to claim 1, characterized in that the upper shell ( 2 ) is less convexly curved than the lower shell ( 3 ). 13. Building according to claim 1, characterized in that the upper shell ( 2 ) is more convexly curved than the lower shell ( 3 ). 14. Building according to claim 1, characterized in that a building space formed by the shells ( 2 , 3 ) is divided into individual rooms ( 8 ) by segments ( 7 ). 15. Building according to claim 1, characterized in that the supports ( 4 ) are detachably attached to the building ( 1 ). 16. Building according to claim 1, characterized in that the building ( 1 ) is manufactured in lightweight construction. 17. Building according to claim 1, characterized in that the building ( 1 ) and the segments ( 7 ) are manufactured in lightweight construction. 18. Building according to claim 1, characterized in that the upper shell ( 2 ) and the lower shell ( 3 ) each form a building part, wherein the upper shell ( 2 ) is arranged offset on the lower shell ( 3 ). 19. Building according to claim 1, characterized in that at least one additional building element ( 20 ) is arranged between the shells ( 2 , 3 ). 20. Building according to claim 1, characterized in that the individual rooms ( 8 ) arranged on each floor are divided into sectors ( 18 ). 21. Building according to claim 1 and 20, characterized in that the sectors ( 18 ) are arranged to be horizontally movable. 22. Building according to claim 1, characterized in that the segments ( 7 ) are connected to one another by wall elements ( 21 ) which divide the individual rooms ( 8 ) into further rooms. 23. Building according to claim 1 and 25, characterized in that the wall elements ( 21 ) are double walls consisting of individual load-bearing structural elements ( 17 ) which run both in the longitudinal and transverse directions and are arranged in such a way that they form space for built-in elements ( 23 ), such as furniture, installations.