JP2016141987A - Foundation structure of floating structure and construction method for foundation structure of floating structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a foundation structure of floating structures which has a predetermined strength and can be efficiently constructed, and a construction method for the foundation structure of the floating structures.SOLUTION: A foundation structure of floating structures comprises a plurality of foundation units 5, 5... floatable in the sea and having a plurality of plan-view polygonal bottomed cylindrical cells 7, 7... arranged in a horizontal array, and the plurality of foundation units 5, 5... are horizontally linked with each other. A construction method for the foundation structure of floating structures comprises the steps of: fabricating and launching a lower side 5A of the foundation unit 5 into the sea; and pouring concrete on the upper end of the foundation unit 5 launched in the sea to build an upper side 5B of the foundation unit 5.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a foundation structure of a floating structure and a construction method of the foundation structure of the floating structure.

In recent years, floating structures that can effectively use ocean space have been proposed (see, for example, Patent Documents 1 and 2). Recently, there is also a concept of a marine city to construct a high-rise building or a super high-rise building as a floating structure.
When constructing such a floating structure, members constituting the floating structure are manufactured in a land production yard, and these members are transported by sea and connected on the ocean.

JP 2010-101033 A JP 2008-095417 A

By the way, in the case of a large-scale floating structure, the foundation becomes large and high strength is required.
Moreover, in a large-scale floating structure, it is difficult to manufacture the foundation at once in a land or coastal production yard. For this reason, in a large-scale floating structure, it is necessary to manufacture the base part by dividing it into a plurality of members, transport these members by sea, and connect them offshore. Therefore, the construction of the foundation of a large-scale floating structure tends to be costly and costly.

  Then, an object of this invention is to provide the construction method of the foundation structure of the floating structure which has predetermined intensity | strength, and can be constructed efficiently, and the foundation structure of a floating structure.

  In order to achieve the above object, the basic structure of a floating structure according to the present invention includes a plurality of foundations in which a plurality of bottomed cylindrical cells having a polygonal shape in plan view are arranged in the horizontal direction and can float on the sea. It has a unit, and has a foundation structure where a plurality of these foundation units were connected horizontally.

  Further, the construction method of the foundation structure of the floating structure according to the present invention is a construction method of the foundation structure of the floating structure, the step of producing the foundation unit on land and sending it to the sea, And a step of horizontally connecting the plurality of foundation units sent out to the sea to form the foundation structure.

In the present invention, the base unit has a structure having a predetermined strength while being lightweight, since a plurality of bottomed cylindrical cells having a polygonal shape in plan view are arranged in the horizontal direction and can float on the sea. can do. And since the foundation structure of a floating structure has a foundation structure in which a plurality of foundation units as described above are connected, a structure having a predetermined strength can be obtained.
In addition, since the base unit has a form in which a plurality of bottomed cylindrical cells having a polygonal shape in plan view are arranged in the horizontal direction, the base unit and the base structure can be made lightweight. Thereby, the foundation unit and the foundation structure can be easily transported at sea, and the foundation units can be easily connected to each other.
The basic unit can be easily formed into a desired shape by adjusting the cell arrangement.
Further, since the cell has a bottomed cylindrical shape, water can be poured into the cell at sea, and the buoyancy of the foundation unit (foundation structure) can be set by adjusting the amount of water.

Further, in the foundation structure of the floating structure according to the present invention, a plurality of the foundation structures are connected in the horizontal direction and the vertical direction, and the plurality of connected foundation structures are in the center of the outer peripheral portion in plan view. It is preferable that many substructures are connected in the vertical direction and protrude downward.
By setting it as such a structure, since the center part reaches the deep position in the sea rather than an outer peripheral part, the foundation structure which consists of a plurality of connected foundation structures can float on the sea stably. Thereby, even when the upper structure built on the upper part of the foundation structure is a high-rise building or a super-high-rise building, the foundation structure can support the upper structure in a stable state.

Moreover, in the foundation structure of the floating structure according to the present invention, the outer peripheral portion of the foundation structure is connected to the foundation unit arranged on the inner side and can be connected to the adjacent foundation structure. It is preferable that a connecting portion is provided.
By setting it as such a structure, adjacent foundation structures can be connected easily.

The construction method of the foundation structure of the floating structure according to the present invention includes a step of producing the lower side of the foundation unit on land and sending it to the sea, and applying concrete to the upper end of the foundation unit sent to the sea. It is preferable to have a process of placing and manufacturing the upper side of the foundation unit.
By adopting such a configuration, the lower side of the foundation unit manufactured in the production yard on land can be transported to the vicinity of the place where the foundation unit is installed, and the upper side of the foundation unit can be manufactured at this place. For this reason, compared with the case where the whole foundation unit is manufactured in a production yard and carried by sea, the sea transportation of a foundation unit can be performed easily. Further, the production yard can be made smaller and the cost can be reduced as compared with the case where the entire basic unit is produced in the production yard.

  According to this invention, while having predetermined intensity | strength, it can construct efficiently.

It is an elevational view showing an example of a floating structure according to an embodiment of the present invention. It is a top view which shows the base part of a floating body type structure. It is the sectional view on the AA line of FIG. It is a top view explaining a core part. (A) is a top view which shows a basic unit, (b) is a perspective view of (a). It is a top view which shows the connected 1st basic | foundation unit. (A) is a figure explaining the construction method of the 1st foundation structure of a core part, (b) is a figure explaining the construction method of the 2nd foundation structure of a core part, (c) is the 3rd foundation of a core part. It is a figure explaining the construction method of a structure and a 4th foundation structure. (A) is a figure explaining the construction method of the 1st inner side foundation structure of a 1st outer peripheral part, (b) is a figure explaining the construction method of the 1st outer side foundation structure of a 1st outer peripheral part, (c) is The figure explaining the construction method of the 2nd inner side foundation structure and the 2nd outside foundation structure of the 1st perimeter part, (d) is construction of the 3rd inner side foundation structure and the 3rd outside foundation structure of the 1st circumference part It is a figure explaining a method.

Hereinafter, the foundation structure of the floating structure and the construction method of the foundation structure of the floating structure according to the embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 1, the floating structure 1 according to the present embodiment is provided on the sea, and includes a foundation part (foundation structure) 2 that floats on the sea, a foundation accessory part 3 attached to the foundation part 2, and a foundation. And an upper structure 4 constructed on the upper part of the part 2.
The base auxiliary | assistant part 3 is provided in order to receive buoyancy with the base part 2, or to maintain the base part 2 in the stable state on the sea, for example.
The upper structure 4 is a tower-like high-rise building or a super-high-rise building, and is provided with recreational facilities such as a living space, an office space, a commercial facility, and a park.

As shown in FIG. 2, in this embodiment, the base part 2 is formed so that the center part 2b protrudes below rather than the outer peripheral part 2a side.
The base portion 2 includes a core portion 21 disposed in the central portion 2b in plan view, a first outer peripheral portion 22 formed in an annular shape along the outer peripheral portion of the core portion 21 in plan view, and a first outer periphery in plan view. And a second outer peripheral portion 23 formed in an annular shape along the outer peripheral portion of the portion 22.
In the present embodiment, the upper structure 4 is constructed above the core portion 21.

The core part 21 has four foundation structures 211A (200) to 211D (200) connected in the vertical direction. In the present embodiment, the four basic structures 211A to 211D are formed in a substantially hexagonal shape having the same planar view shape. In FIG. 2, the four basic structures 211 </ b> A to 211 </ b> D are not shown in a plan view, but are circular.
Here, the foundation structure disposed at the bottom of the four foundation structures 211A to 211D is a first foundation structure 211A, and a second foundation structure 211B, a third foundation structure 211C, Assume that the four basic structures 211D are arranged in this order.
As shown in FIG. 4, these four foundation structures 211 </ b> A to 211 </ b> D respectively have a plurality of foundation units 5, 5... Connected in the horizontal direction and outer peripheries of the plurality of foundation units 5, 5. And a connecting portion 6 that is provided so as to surround and to which the inner foundation structures 221A to 221C of the first outer peripheral portion 22 are connected. And when the connection part 6 is provided in the outer periphery of the some basic | foundation unit 5,5 ..., respectively, the four foundation structures 211A-211D will become a substantially hexagonal shape in planar view.

As shown in FIG. 5, each of the plurality of basic units 5, 5 is a substantially hexagonal cylindrical wall portion 71 when viewed from the axial direction, and a bottom portion 72 provided on one side of the wall portion 71 in the axial direction. Are formed in a honeycomb structure in which a plurality of bottomed cylindrical cells 7 are arranged in the same plane. The plurality of cells 7, 7... Are arranged in such a direction that the axis of the cylindrical wall portion 71 extends in the vertical direction and the bottom portion 72 is on the lower side.
Such a plurality of foundation units 5, 5... Are made of, for example, full precast concrete. The plurality of basic units 5, 5... Are configured to be able to float on the sea.
In the present embodiment, the plurality of cells 7, 7... Constituting one base unit 5 are integrally formed to form a honeycomb structure. A plurality of cells 7, 7... Constituting one basic unit 5 may be formed individually and connected to form a honeycomb structure.

The plurality of basic units 5, 5... Are formed in different shapes depending on the number and arrangement of cells 7, 7.
As shown in FIGS. 4 and 5, the first basic unit 51 of the plurality of basic units 5, 5... Has 14 cells 7, 7... Arranged in the same plane, and the first direction in this plane. Are arranged in the first direction X. The four cells 7, 7... Arranged in the first direction X are arranged in the first direction X on one side of the second direction Y orthogonal to the first direction X. Three cells 7, 7 ... are arranged, and four cells 7, 7 ... are arranged in the first direction X on one side of the second direction Y of the three cells 7, 7 ... arranged in the first direction X. Are arranged in the first direction X on one side in the second direction Y of the four cells 7, 7... Arranged in the first direction X.

  As shown in FIG. 4, the second basic unit 52 among the plurality of basic units 5, 5... Has 11 cells 7, 7. Are arranged in the first direction X. Three cells 7, 7... Are arranged in the first direction X on one side of the second direction Y of the four cells 7, 7. The four cells 7, 7... Are arranged in the first direction X on one side of the second direction Y of the three cells 7, 7.

  In the third basic unit 53 of the plurality of basic units 5, 5,..., Ten cells 7, 7,... Are arranged in the same plane, and three cells 7, 7,. Are arranged in the first direction X on one side of the second direction Y of the three cells 7, 7... Arranged in the first direction X, and arranged in the first direction X. Three cells 7, 7... Are arranged in the first direction X on one side in the second direction Y of the four cells 7, 7.

In this embodiment, as shown in FIG. 6, six first basic units 51, 51... Are arranged and connected two in the first direction X and three in the second direction Y. In addition, with respect to the three first basic units 51, 51, 51 arranged on one side in the first direction X, the three first basic units 51 arranged on the other side in the first direction X are respectively horizontal planes. It is arranged in a direction rotated 180 ° C. inside. The six first basic units 51, 51... Are connected so that no space is formed between the adjacent first basic units 51, 51.
The first basic units 51 and 51 connected to each other have the wall portions 71 and 71 and the bottom portions 72 and 72 of the adjacent cells 7 and 7 connected to each other by, for example, a PC steel material. The grout material is filled between 71 and 71 and between the bottom portions 72 and 72. As for the connection between the basic units 5 and 5 other than the first basic unit 51, for example, a PC steel material or a grout material is used as in the connection between the first basic units 51 and 51.

Returning to FIG. 4, one second basic unit 52 and one third basic unit 53 are arranged in the first direction X on one side in the second direction Y of the six first basic units 51, 51. They are linked side by side. Further, the second basic unit 52 and the third basic unit 53 are also connected.
When these six first basic units 51, 51..., One second basic unit 52 and one third basic unit 53 are connected, the outer shape in plan view is substantially rectangular.

In addition, the six first base units 51, 51..., One second base unit 52 and one third base unit 53 connected to each other include first to third base units on both sides in the first direction X. Other basic units 54, 54... Different from 51, 52, 53 are connected. And when these several basic units 51-54 are connected, the external shape in the planar view will be a substantially hexagon.
In addition, according to the planar view shape which these several basic units 51-54 connect and comprise, it is in a part of several basic units 54, 54 ... other than the 1st-3rd basic units 51, 52, 53 ... May include a base unit 54 composed of only one cell 7.

The connection part 6 has a plurality of cells 7, 7... Arranged along the entire outer periphery of the plurality of base units 51 to 54 connected as described above. For the connection between the connecting portion 6 and the base unit 5, for example, a PC steel material or a grout material is used in the same manner as the connection between the base units 5 and 5.
Moreover, the connection part 6 may be provided with connection means, such as PC steel material, for connecting with the connection part 6 of the other foundation structure 200 connected.

Returning to FIG. 2 and FIG. 3, the first outer peripheral portion 22 includes three inner foundation structures 221 </ b> A (200) to 221 </ b> C (200) arranged on the central portion 2 b side of the foundation portion 2 and connected in the vertical direction. Three outer foundation structures 222A (200) to 222C (200) which are arranged on the outer peripheral part 2a side of the foundation part and are connected in the vertical direction with respect to the inner foundation structures 221A to 221C of the above. The inner foundation structures 221A to 221C and the outer foundation structures 222A to 222C are connected.
Here, among the three inner foundation structures 221A to 221C, the foundation structure disposed at the bottom is the first inner foundation structure 221A, and the second inner foundation structure 221B and the third inner foundation structure are formed thereon. Assume that the bodies 221C are arranged in this order. Further, a base structure disposed at the bottom of the three outer base structures 222A to 222C is a first outer base structure 222A, and a second outer base structure 222B and a third outer base structure are formed thereon. Assume that they are arranged in the order of 222C.

  These inner foundation structures 221A to 221C and outer foundation structures 222A to 222C are respectively a plurality of foundation units 5 connected in the horizontal direction, similarly to the foundation structures 211A to 211D of the core portion 21 shown in FIG. .. And a connecting portion 6 provided so as to surround the outer periphery of the plurality of connected base units 5, 5... And connected to another base structure 200.

  The base units 5, 5... Of the inner base structures 221A to 221C and the outer base structures 222A to 222C have a plurality of cells 7, 7... Similar to the base units 5 of the base structures 211A to 211D of the core portion 21. It is formed in a honeycomb structure. The number and arrangement of the cells 7, 7... Of the base units 5 of the inner base structures 221A to 221C and the outer base structures 222A to 222C are the same as the inner base structures 221A to 221C and the outer base structures 222A to 222C, respectively. Designed for configurable numbers and arrays.

  The 2nd outer peripheral part 23 is the intermediate | middle foundation arrange | positioned at the outer peripheral part 2a side of the base part 2 rather than the inner side basic structure 231 (200) arrange | positioned at the center part 2b side of the base part 2. It has a structure 232 (200) and an outer foundation structure 233 (200) disposed on the outer peripheral part 2a side of the foundation part 2 relative to the intermediate foundation structure 232. The inner foundation structure 231 and the intermediate foundation structure 232 are connected, and the intermediate foundation structure 232 and the outer foundation structure 233 are connected.

  These inner foundation structure 231, intermediate foundation structure 232, and outer foundation structure 233 are each a plurality of foundation units connected in the horizontal direction, similarly to the foundation structures 211A to 211D of the core portion 21 shown in FIG. And a connecting portion 6 that is provided so as to surround the outer periphery of the plurality of connected base units 5, 5, and is connected to another base structure 200.

  The base units 5, 5... Of the inner base structure 231, the intermediate base structure 232, and the outer base structure 233 are a plurality of cells 7, 7. It is formed in the structure which has. The number and arrangement of the cells 7, 7... Of the base unit 5 of the inner base structure 231, the intermediate base structure 232, and the outer base structure 233 are respectively the inner base structure 231, the intermediate base structure 232, and the outer base structure 233. The number and arrangement of the structures 233 are designed.

Then, the construction method of the foundation part 2 of the floating structure 1 by this embodiment is demonstrated.
First, the basic units 5, 5,.
The lower side 5A of the base unit 5 which is the bottom 72 side of the cell 7 shown in FIG. 5B is manufactured on land or in a manufacturing yard provided along the coast, and the lower side 5A of the manufactured base unit 5 is offshore. To send.
Subsequently, concrete on the upper side 5B of the base unit 5 is placed on the upper side of the lower side 5A of the base unit 5 on the ocean. In the present embodiment, the concrete on the upper side 5B of the foundation unit 5 is placed stepwise from the lower side toward the upper side. Then, the basic unit 5 having a predetermined height is manufactured.
In addition, the connecting portion 6 is manufactured. As for the production of the connecting part 6, the lower side of the connecting part 6 is produced in the production yard in the same manner as the production of the basic units 5, 5,..., The lower side of the produced connecting part 6 is sent out to the sea and connected at the sea. Concrete is placed on the upper side of the portion 6 to produce a connecting portion 6 having a predetermined height.

Subsequently, the core unit 21 is constructed.
First, as shown to Fig.7 (a), the basic units 5,5 ... and the connection part 6 are connected, and the 1st foundation structure 211A of the core part 21 is constructed | assembled.
Subsequently, the base units 5, 5... And the connecting part 6 are connected to construct the second basic structure 211 </ b> B of the core part 21. Then, as shown in FIG. 7B, the second foundation structure 211B is connected to the upper part of the first foundation structure 211A.

Then, as shown in FIG.7 (c), the base units 5,5 ... and the connection part 6 are connected, and the 3rd foundation structure 211C of the core part 21 is constructed | assembled. And the 3rd foundation structure 211C is connected with the upper part of the 2nd foundation structure 211B.
Then, 4th foundation structure 211D of the core part 21 is constructed | assembled by connecting the base units 5,5 ... and the connection part 6. FIG. And 4th foundation structure 211D is connected with the upper part of 3rd foundation structure 211C.
Thereby, the core part 21 is constructed. In addition, as for the core part 21, the upper surface of 4th foundation structure 211D is arrange | positioned in the sea surface vicinity.

Subsequently, the first outer peripheral portion 22 is constructed.
First, as shown in FIG. 8A, the base units 5, 5... And the connecting portion 6 are connected to construct the first inner base structure 221 </ b> A of the first outer peripheral portion 22. And this 1st inner side foundation structure 221A is connected with the foundation structures 211A-211D of the core part 21 so that relative movement is possible to an up-down direction.
Then, as shown in FIG.8 (b), the foundation units 5,5 ... and the connection part 6 are connected, and the 1st outer side foundation structure 222A of the 1st outer peripheral part 22 is constructed | assembled. The first outer foundation structure 222A is connected to the first inner foundation structure 221A. The first inner foundation structure 221A and the first outer foundation structure 222A are coupled so as not to move relative to each other in the vertical direction and the horizontal direction.

Subsequently, the base units 5, 5... And the connecting portion 6 are connected to construct the second inner base structure 221 </ b> B of the first outer peripheral portion 22 and the second outer base structure 222 </ b> B of the first outer peripheral portion 22. And these 2nd inner side foundation structures 221B and 2nd outer side foundation structures 222B are connected.
Then, the connected second inner foundation structure 221B and second outer foundation structure 222B are connected on the first inner foundation structure 221A and the first outer foundation structure 222A. At this time, the second inner foundation structure 221B is coupled to the foundation structures 211A to 211D of the core portion 21 so as to be relatively movable in the vertical direction.

Similarly, the third inner foundation structure 221C and the third outer foundation structure 222C of the first outer peripheral portion 22 are constructed. The third inner foundation structure 221C and the third outer foundation structure 222C are connected to each other, and the connected third inner foundation structure 221C and third outer foundation structure 222C are connected to the second inner foundation structure. It connects with the upper part of the body 221B and the 2nd outer foundation structure 222B.
Thereby, the 1st outer peripheral part 22 is constructed | assembled. In addition, as for the 1st outer peripheral part 22, the upper surface of the 3rd inner side foundation structure 221C and the 3rd outer side foundation structure 222C is arrange | positioned in the sea surface vicinity.

Subsequently, the second outer peripheral portion 23 is constructed.
First, as shown in FIG. 3, the base units 5, 5... And the connecting portion 6 are connected to construct an inner base structure 231 of the second outer peripheral portion 23, and the inner base structure 231 is connected to the first outer peripheral portion 22. The outer substructure 222 is connected.
Subsequently, the base units 5, 5... And the connecting portion 6 are connected to construct the intermediate foundation structure 232 of the second outer peripheral portion 23, and this intermediate foundation structure 232 is connected to the inner foundation structure 231.
Subsequently, the foundation units 5, 5... And the connecting portion 6 are connected to construct the outer foundation structure 233 of the second outer peripheral portion 23, and the outer foundation structure 233 is connected to the intermediate foundation structure 232.
Thereby, the 2nd outer peripheral part 23 is constructed | assembled. In addition, as for the 2nd outer peripheral part 23, the upper surface of the inner side foundation structure 231, the intermediate | middle foundation structure 232, and the outer side foundation structure 233 is arrange | positioned in the sea surface vicinity.
In this way, the base portion 2 of the floating structure 1 is constructed.

Next, the operation and effect of the basic structure of the floating structure 1 will be described with reference to the drawings.
In the basic structure of the floating structure 1 according to the present embodiment described above, the basic units 5, 5,... Have a honeycomb structure in which a plurality of hexagonal bottomed cylindrical cells 7, 7,. Therefore, it is possible to obtain a structure having a predetermined strength while being lightweight. And since the basic | foundation part 2 has the basic | foundation structure 200 with which the above basic | foundation units 5,5 ... were connected, it can be set as the structure which has predetermined intensity | strength.
In addition, since the base units 5, 5... Have a honeycomb structure, the base unit 5 and the base structure 200 can be made lightweight. Thereby, the foundation units 5, 5... And the foundation structure 200 can be easily transported at sea, and the foundation units 5 can be easily connected to each other.
Further, the basic unit 5 can be easily formed into a desired shape by adjusting the arrangement of the cells 7, 7.
Further, since the cell 7 has a bottomed cylindrical shape, water can be poured into the cell 7 at sea, and the buoyancy of the foundation unit 5 (foundation structure 200) is set by adjusting the amount of water. Can do.

Further, in the base portion 2, the core portion 21 has a larger vertical dimension than the first outer peripheral portion 22, and the first outer peripheral portion 22 has a larger vertical dimension than the second outer peripheral portion 23, and the core portion 21 is the first. The shape protrudes downward from the outer peripheral portion 22 and the second outer peripheral portion 23. Thereby, since the core part 21 of the center part 2b reaches the deeper position in the sea than the 1st outer peripheral part 22 and the 2nd outer peripheral part 23 by the side of the outer peripheral part 2a by this, the base part 2 can float on the sea stably. it can. Thereby, even when the upper structure 4 constructed on the upper part of the foundation part 2 is a high-rise building or a super-high-rise building, the foundation part 2 can support the upper structure 4 in a stable state.
In addition, since the foundation structure 200 is configured to be connectable in the vertical direction and the horizontal direction, even in the case of the large-scale foundation portion 2, by connecting the foundation structure 200 in the vertical direction and the horizontal direction, Easy to install.

  In addition, the base units 5, 5... Are manufactured at the lower side 5A in the manufacturing yard, and the upper side is manufactured by placing concrete on the sea. Thereby, the lower side 5A of the base unit 5 manufactured in the manufacturing yard is transported by sea to the vicinity of the place where the base unit 5 is installed, and the upper side 5B of the base unit 5 can be manufactured in this place. For this reason, compared with the case where the whole foundation unit 5 is manufactured in a production yard and carried by sea, the sea transportation of the foundation unit 5 can be performed easily. Further, the production yard can be made smaller and the cost can be reduced as compared with the case where the entire basic unit 5 is produced in the production yard.

As described above, the embodiment of the foundation structure of the floating structure and the construction method of the foundation structure of the floating structure according to the present invention has been described. However, the present invention is not limited to the above embodiment, and departs from the spirit thereof. It is possible to change appropriately within the range not to be.
For example, in the above-described embodiment, the cells 7, 7... Are formed in a bottomed cylindrical shape having a hexagonal shape in plan view. However, other than the hexagonal shape in plan view, the cells 7, 7. It may be formed in a bottom cylindrical shape.

Further, in the above embodiment, the base portion 2 is configured by the core portion 21, the first outer peripheral portion 22, and the second outer peripheral portion 23, but such a configuration is not necessary. The base portion 2 only needs to be configured by combining a plurality of base units 5, 5... And a base structure 200, 200.
Moreover, in said embodiment, although the foundation structure 200 has the foundation units 5, 5 ... and the connection part 6, it does not have the connection part 6, but other periphery part of the foundation unit 5 has other. The structure by which the foundation unit 5 of the foundation structure 200 is connected may be sufficient.

Further, in the above-described embodiment, the base portion 2 has the core portion 21 of the central portion 2b protruding downward from the first outer peripheral portion 22 and the second outer peripheral portion 23 on the outer peripheral portion 2a side. The lower surfaces of the first outer peripheral portion 22 and the second outer peripheral portion 23 may be constructed so as to be flat. The shape and dimensions of the base portion 2 may be arbitrarily set.
Moreover, the base part 2 may be comprised only by the one foundation structure 200. FIG.
In the above embodiment, the upper structure 4 is constructed on the upper part of the foundation 2, but it may not be constructed. When the upper structure 4 is constructed, the upper structure 4 may have a desired shape.
Moreover, in said embodiment, although the base incidental part 3 is installed in the base part 2, it does not need to be installed. Moreover, when the base supplement part 3 is installed in the base part 2, the base supplement part 3 is good also as a desired shape.

Further, in the above embodiment, the base units 5, 5... Are manufactured in the production yard on the lower side 5A and manufactured on the ocean on the upper side 5B, but all may be manufactured in the production yard. The base units 5, 5... May be manufactured by any construction method.
Moreover, in said embodiment, adjacent foundation units 5 and 5 and adjacent foundation structures 200 and 200 are connected with PC steel material, and grout material is filled in the space | interval of adjacent foundation units 5 and 5. However, it may be connected by other connecting methods such as bolt joining.

1 Floating structure 2 Foundation part (foundation structure)
2a outer peripheral part 2b central part 3 foundation auxiliary part 4 upper structure 5 basic unit 5A lower side 5B upper side 6 connecting part 7 cell 21 core part 22 first outer peripheral part 23 second outer peripheral part 200, 211A to 211D basic structure 221A 〜221C Inner foundation structure (foundation structure)
222A-222C Outside foundation structure (foundation structure)
231 Inside foundation structure (foundation structure)
232 Intermediate foundation structure (foundation structure)
233 Outside foundation structure (foundation structure)

Claims (5)

  A base structure in which a plurality of bottomed cylindrical cells having a polygonal shape in plan view are arranged in the horizontal direction and have a plurality of base units that can float on the sea, and the plurality of base units are connected in the horizontal direction. A basic structure of a floating structure characterized by having a body. A plurality of the foundation structures are connected in the horizontal direction and the vertical direction,
2. The floating body according to claim 1, wherein a plurality of the foundation structures are connected to a plurality of foundation structures in the vertical direction at the center portion of the outer peripheral portion in plan view and protrude downward. The basic structure of the formula structure.   The outer peripheral portion of the foundation structure is connected to the foundation unit disposed on the inner side, and is provided with a connection portion that can be connected to the adjacent foundation structure. Or a basic structure of the floating structure according to 2; It is a construction method of the foundation structure of the floating structure according to any one of claims 1 to 3,
Producing the basic unit on land and sending it to the sea;
And a step of connecting the plurality of foundation units sent out to the sea in the horizontal direction on the sea to form the foundation structure, and a method for constructing the foundation structure of the floating structure. Producing the lower side of the basic unit on land and sending it to the sea;
5. A foundation structure for a floating structure according to claim 4, further comprising the step of placing concrete on an upper end portion of the foundation unit sent out to the sea to produce an upper side of the foundation unit. Construction method.

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