KR0143060B1 - Building structure improvement by inverted pyramid type foundation - Google Patents

Abstract

The present invention is to provide a new concept of building that allows the foundation to have the function of the substructure of the building itself, deviating from the prior art as described above, the load of the building does not act only vertically, that is, the perpendicular direction of the slope of the reverse pyramid, that is, the building In order to improve the construction structure of the inverted pyramid type foundation, it works in the acute direction of the foundation to reduce the vertical load burden placed on the ground, and furthermore, the foundation becomes part of the structure. In order to achieve the above object, the substructure of the building is in the form of inverted pyramid, and the main joint core is installed at the vertex of the inverted pyramid, and the four auxiliary joint cores are erected and connected to the main joint core to fix the structure. Load in the acute direction of the slope of the reverse pyramid One main joint core column 11 is erected at a vertex of one or more inverted pyramid-shaped foundations P, in which four pyramid frameworks 1 and four pyramid beams 3 are combined to provide a distributed structure. In addition, the secondary joint core pillar 21, which is bounded by the ribs 7, is erected at four corners in which the pyramid beams 3 are coupled to each other, so that the main joint core pillar 11 and the secondary joint core pillar 21 are diagonally formed. As the coupling beams 31 are coupled, the peripheral four and the upper one except for the lower one of the six pyramid-shaped spaces formed by connecting the auxiliary joint core pillar 21 to the extension line of the pyramid frame 1 are It can also be used as an architectural space, and connect the four upper and lower corner beams 7 on the ground as four pyramid beams 1 'through the main joint core pillar 11 to the diagonal corners. Form six pyramidal spaces Pyramid-shaped space part can be used as a space part for residence or equivalent and utility part.

Description

Building structure improvement by inverted pyramid type foundation

1 is a view showing the frame and foundation of a conventional ramen structured building

2 shows a skeletal structure of the inventive concept.

3 is a diagram showing that the foundation is made of a plurality of inverse pyramids according to the building structure

4 is a view showing that the architectural structure of the present invention can be understood as a combination of four trusses.

5 shows a variation of the foundation

6 is a cross-sectional view showing an example of applying the present invention to a skyscraper

7 is an exemplary view showing the partition of the pyramid space portion for each block

8 is an enlarged cross-sectional view of the block of FIG.

9 is a plan cross-sectional view of the model layer of FIG.

10 is a cross-sectional plan view of the middle layer of FIG.

Figure 11 is an illustration of the coupling state of the main joint core pillar and the connecting beam.

* Explanation of symbols for main parts of the drawings

1: pyramid frame 3: pyramid beam

5: pyramid vertex junction 7: skeleton beam

11: Main joint core pillar 21: Auxiliary joint core pillar

31: diagonal connection beam 41, 42: coupling portion

The present invention relates to a new concept of building, and more particularly to the improvement of the building structure by means of an inverted pyramid type foundation.

Many kinds of buildings have been proposed since the similarity, but all of these buildings have been sought to improve in terms of the robustness, earthquake resistance, light weight, warmth, convenience, space utilization, and aesthetics of the building itself. It was taken for granted that the foundation construction of the building was assumed to work in the vertical direction.

In other words, the structure of the structure is divided into continuous beam (plane truss), plane frame (plane frame), grid (grid), space truss (space truss), space frame (space frame), etc. According to the construction method, the structure of the building such as wood structure, steel frame, prefabricated reinforced concrete tank, furniture structure by joining members such as truss, formwork concrete, integral structure and brick structure Buildings are classified into masonry structures such as blocks, blocks, and masonry, and there are special structures such as suspension structures and membrane structures.

However, such a building was premised on the construction site for the foundation work according to such a structure, and no attempt was made to reduce the vertical load of the building foundation. For example, a building having a bearing wall structure has its load. As it acts perpendicular to the foundation of the building as it is, the foundation work should be done in consideration of the load concentrated on the lower part of the building. In the case of the structure of the ramen (curtain wall) structure, the load of the building acts on the foundation of the building through the column so It was taken for granted to design the foundation as necessary to prevent the bias of building loads or to prevent partial settlement of the foundation.

According to the size, height, and other circumstances, the building resists, absorbs, or transmits external forces combined with geophysical loads such as gravity loads, earthquake loads, weather loads, and human-related loads such as submerged loads and dynamic loads. It is said to be delivered to. Although there have been many studies and developments regarding the structure itself, the foundation of the building is highly dependent on the site on which the building will be placed, and the loads from the superstructure of the building are evenly distributed on the site and do not settle down, especially partial settlement. It is known that the basic design should be performed, and accordingly, methods such as independent foundation, steel lattice foundation, and concrete piling are known.

However, the building foundation as described above is designed to prevent floating settlement on the premise that the load of the building acts on the foundation evenly and vertically, and if the large building has a high rise part, deepen the foundation of the high rise part, or the ground of the high rise part. It is known to design in consideration of the stress on the vertical load, such as making a deep friction pile, or a foundation part separate from the lower part in the high floor.

The object of the present invention is to provide a new concept of building that allows the foundation to have the function of the building substructure itself out of the prior art as described above.

It is also an object of the present invention to reduce the vertical load on the site of the building by acting not only vertically but also in the perpendicular direction of the slope of the reverse pyramid, that is, the acute angle of the foundation of the building.

The present invention further aims to enable the construction of a more robust building as the foundation becomes part of the structure.

In order to achieve the above object, the present invention is to make the lower structure of the building in the form of inverted pyramid, while installing the main joint core at the vertex of the inverted pyramid, while establishing the four auxiliary joint cores connected to the main joint core and fixed the building Provides a structure in which the load of is dispersed in the acute direction of the slope of the reverse pyramid.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a skeleton of a conventional ramen (curtain wall) structure, and it is known that by increasing the number of pillars 100, a building load acting on each foundation 101 can be dispersed to reduce the risk of floating settlement. . On the other hand, in buildings with bearing wall structure, the load acts on the foundation vertically (except in the case of high-rise part), so the foundation corresponding to the load for each part should be constructed.

2 is a view showing the concept of the present invention taking a rectangular building as an example, the lower part of the building is composed of an inverted pyramid-shaped foundation (P), the four corners of the upper surface consisting of four pyramid beams (3) 7) one main joint core at the vertex junction (5) of the inverted pyramid, in which four auxiliary joint core pillars 21, which are bound by 7), are erected and four pyramid skeletons 1 connected to the secondary joint core pillars 21 are assembled. The pillar 11 is erected, and each auxiliary joint core column 21 is bound to the main joint core column 11 by diagonal coupling beams 31 by coupling portions 41 and 42.

In FIG. 2, the vertex junction 5 and the coupling parts 41 and 42 are pyramid frame 1, pyramid beam 3, frame beam 7, main joint core column 11, and secondary joint core column 21. The method of fastening is not presented, and many methods, such as riveting or pipe connection, may be used depending on the size, structure, and material of each building.

In addition, the specification of each frame is represented easily in drawing, and the drawing of FIG. 2 does not have any meaning.

As the pyramid is known to be the safest structure, the structure of this structure has a load of acute angle of the main joint core column (1) in addition to the vertical direction (L1), that is, the right angle direction of the four inclined planes of the four pyramid frame to the reverse pyramid. (L2), the load burden on the foundation of the building due to the vertical load is greatly reduced.

In FIG. 2, the main joint core pillar 11 may protrude below the vertex junction 5 of the reverse pyramid as in the dotted line.

FIG. 2 illustrates that the building of the present invention has a rectangular shape, but is not limited thereto. The lower part of the building may be a round, square, pentagonal, hexagonal, octagonal, pentagonal, or any combination of such building structures. If the structure consists of one or a plurality of inverse pyramids, it is within the scope of the present invention.

Furthermore, unlike FIG. 2, the substructure of the building may also allow a plurality of inverted pyramids to be uniformly or non-uniformly coupled (see FIG. 3).

As the building of the present invention can be understood as a structure incorporating four truss-like structures as shown in Fig. 4 (including the dotted portion P 'as a roof part, it becomes a symmetrical truss structure), and as such is a very rigid structure. Therefore, since the base portion of the reverse pyramid type is firmly combined with the building body, it constitutes a very solid building as a whole.

According to the scale of the building of the present invention, the size of the reverse pyramid-type foundation is determined, as well as the auxiliary joint core pillar 21 and the diagonal connecting beam 31 in the frame of the building itself, and an appropriate number of auxiliary pillars and auxiliary connections. Of course, it is possible to install the beam, this part may be designed according to the known technology for the construction structure, such as reinforced concrete or steel frame buildings.

Hereinafter, an example in which the present invention is applied to a high rise and a high rise building will be described.

FIG. 5 shows a modified structure of the inverted pyramid-shaped base part when the present invention is applied to a high-rise and a high-rise building, and a virtual 4 formed by vertically extending each auxiliary joint core column 21 in the same length as compared with FIG. It is composed of four pyramid skeletons (1 ') with main vertex core pillars 11 interposed between the vertexes of the icosahedron to form the foundation where the bottom one pyramid space is actually empty. Pillar 11 is to end at the place where the four pyramid frame (1 ') meet, it may extend to the dotted line as necessary. At this time, between the upper and lower ribs 7 can be accommodated substantially several floors or more than 10 floors of the building.

6 shows an example in which the present invention is applied to a high-rise building, for example, a one-mile building proposed by Frank Wright.

In this case, the base part is the same as in Fig. 5, and the ground part is made up of several blocks 50 (for example, in Fig. 6) having a height of about 100 stories, and each block has six pyramid spaces as in the base part of Fig. A structure having

One block of FIG. 6 is divided into six pyramid spaces as shown in FIG. 7, and the surrounding four pyramid spaces (a, b, c, d) are living spaces and the remaining two pyramid spaces (e, f) are reserved. Leave it as space.

8 is a cross-sectional view showing an example of how a block is constructed. The middle of the left and right living spaces (b, d) is divided into two vertical space portions (x, y) around the main joint core pillar (11). One vertical space (x) is used for elevators, the other vertical space (y) is used for various ducts, chimneys, etc., and the upper and lower portions of the block as the ventilation space (k, k '), the vertical space (x) Through the duct part (0) formed on the outside of the y, it is used as a ventilation and wind passage, and the rest of the preliminary space (e, f) to accommodate the natural light autonomy. In this case, the vertical space portions (x, y) can be of course the internal structure of the main joint core pillar (11).

FIG. 9 is a cross-sectional view of the model floor (EF) of FIG. 8, wherein the main joint core pillar 11, the auxiliary joint core pillar 21, the living spaces a, b, c, d, Vertical spaces (x, y) and ducts (0) are shown.

FIG. 10 shows an example of a planar cross-sectional view of the middle floor (MF) of FIG. 8, which includes a main joint core pillar 11 (including a vertical space part), an auxiliary joint core pillar 21, and a living space (a, b). c and d and the duct section 0 are shown.

FIG. 11 illustrates an example of a structure for coupling the diagonal connecting beam 31 to the main joint core pillar 11, and is known as a mero system. In addition, various known techniques may be used. In addition, it will be possible to develop a structure suitable for the present invention.

The present invention of the above configuration can be applied to low-rise buildings, such as multi-family houses, as well as middle and high-rise buildings, using reinforced concrete, as well as steel systems, pipe systems using the synergistic effect of the compressive force of the concrete and the tensile force of the rebar Adopting the dry process, which prefabricated the whole process, makes the effect even bigger, and it is possible to make innovative improvements in air saving and cost saving.

In addition, six pyramid spaces are formed by connecting and combining one pyramid frame (1 ') through four main joint core columns (11') at four corners of the top and bottom, so the living space of four sides. (a, b, c, d) may be made as an independent building accommodating about 100 floors, and space may be appropriately provided for ventilation, lighting, elevators, and other utility facilities required for high-rise or high-rise buildings.

Claims (14)

One main joint core column 11 is erected at a vertex of one or more inverted pyramid-shaped foundations P, in which four pyramid frameworks 1 and four pyramid beams 3 are combined, and a pyramid beam 3 is Auxiliary joint core pillar 21, which is bounded by the four beams 7 coupled to each other, is erected, so that the main joint core pillar 11 and the auxiliary joint core pillar 21 are diagonally connected to the beam 31. Building structure improvement by inverted pyramid type foundation, characterized in that coupled. The structure improvement according to claim 1, wherein a pyramid-shaped roof portion is formed that is symmetrical with the foundation portion (P). The construction structure improvement according to claim 1 or 2, wherein the main joint core pillar (11) protrudes below the vertex of the inverted pyramid. The construction structure improvement according to claim 1 or 2, wherein an appropriate number of auxiliary pillars are erected between the auxiliary joint core pillars (21). Inverted pyramid type according to claim 1 or 2, characterized in that an appropriate number of connecting beams are bound between pyramid beams (3) or frame beams (7) facing each other with main joint core columns (11) interposed therebetween. Improvement of architectural structure by foundation. Four pyramid skeletons (1) and four upper and lower pyramid beams (3) are combined to create six pyramid-shaped space parts, and one main joint core column to the place where four pyramid skeletons (1) meet. ), The pyramid beams (3) are joined to the four corner ribs (7) bonded to each other, the secondary joint core pillars 21 are erected, respectively, the main joint core pillar 11 and the secondary joint core pillar (21). ) Is coupled by a diagonal connection beam 31 to improve the construction structure of the pyramid-shaped foundations, characterized in that the periphery four of the six pyramid-shaped space portion and the upper one is used as the building structure, and the lower one is not used. . The structure improvement according to claim 6, wherein the pyramid-shaped roof portion is formed to be symmetrical with the upper pyramidal space portion. The structure improvement according to claim 6 or 7, wherein the main joint core pillar (11) protrudes below the vertex of the upper pyramidal space. 8. The structural improvement according to claim 6 or 7, wherein an appropriate number of auxiliary columns are erected between the auxiliary joint core columns (21). 7. Construction according to claim 6, characterized in that a suitable number of connecting beams are bound between the pyramid beams 3 or the frame beams 7 facing each other with the main joint core pillar 11 interposed therebetween. Restructuring. The pyramidal shape according to claim 6, wherein six corners of the upper and lower ribs 7 on the ground meet each other by a pyramid frame 1 'to form six pyramid-shaped spaces. Improvement of architectural structure by foundation. The structure improvement according to claim 10, wherein four surrounding pyramid-shaped spaces are composed of tens of floors of houses or equivalent spaces. 12. The passage (k, k ') according to claim 10 or 11, wherein the upper and lower portions of the surrounding four pyramid-shaped spaces are formed as passages (k, k') and passages are formed through the upper and lower pyramid-shaped spaces. Building structure improvement by pyramid-shaped foundation, characterized in that the passage through the air and wind to penetrate. The method according to any one of claims 10 to 12, wherein at least one vertical space portion separate from the air and wind passages is formed around the main joint core pillar 11 to use an elevator, a chimney, a duct, or the like. Architectural structure improvement by the pyramid-shaped foundation part characterized by.