JP6512427B2 - Construction method of foundation structure of floating structure - Google Patents

Description

The present invention relates to a method of installing a foundation structure of a floating structure .

In recent years, floating structures capable of effectively utilizing marine space have been proposed (see, for example, Patent Documents 1 and 2). Recently, there is also an oceanic city concept of building high-rise buildings and high-rise buildings as floating structures.
When constructing such a floating structure, the members constituting the floating structure are manufactured at a production yard on land, 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 base part becomes large scale, and high strength is required.
Also, with large scale floating structures, it is difficult to produce the foundations at one time on land or on a coastal yard. For this reason, in a large scale floating structure, it is necessary to divide the base part into a plurality of members and manufacture them, and to transport these members by sea and connect them on the sea. Therefore, the construction of the foundation of a large floating structure tends to be expensive and expensive.

Then, an object of this invention is to provide the construction method of the foundation structure of the floating structure which can be efficiently constructed while having predetermined strength.

In order to achieve the above object, in the method of installing a foundation structure of a floating structure according to the present invention , a plurality of bottomed cylindrical cells in a planar view polygon can be horizontally arranged and float on the sea It is a construction method of foundation structure of a floating type structure which has a plurality of foundation units, and which has a plurality of foundation units horizontally connected in a horizontal direction , wherein the lower side of the foundation unit is made on land A step of sending out to the sea, a step of putting concrete on the lower end of the base unit sent out to the sea to produce the upper side of the base unit, and a plurality of lower and upper sides manufactured And connecting the base units horizontally in the sea to form the base structure.

In the present invention, since the basic unit has a form in which a plurality of bottomed cylindrical cells in a planar view polygon are arranged horizontally in the horizontal direction and can float on the sea, a structure having a predetermined strength while being lightweight is provided. can do. And since the foundation structure of a floating type structure has a foundation structure by which a plurality of above-mentioned foundation units were connected, it can be considered as structure which has predetermined intensity.
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 a lightweight member. Thus, the foundation units and the foundation structures can be easily transported on the sea, and the foundation units can be easily connected to each other.
Also, the base unit can be easily formed into a desired shape by adjusting the arrangement of cells.
In addition, since the cell has a cylindrical shape with a bottom, water can be put inside the cell on the sea, and the buoyancy of the base unit (base structure) can be set by adjusting the amount of water.
In the method of installing the foundation structure of the floating structure according to the present invention, the lower side of the foundation unit is manufactured on land and sent out to the sea, and the upper end of the lower side of the foundation unit sent out to the sea is concrete And forming the upper side of the foundation unit.
With such a configuration, the lower side of the base unit manufactured in the land manufacturing yard can be transported by sea to the vicinity of the place where the base unit is installed, and the upper side of the base unit can be manufactured at this place. For this reason, the base unit can be easily transported by sea as compared to the case where the entire base unit is manufactured at a production yard and transported by sea. Moreover, compared with the case where the whole basic | foundation unit is manufactured in a production yard, a production yard can be made small scale and cost can be reduced.

Moreover, in the construction method of the foundation structure of the floating structure according to the present invention, the plurality of foundation structures are connected in the horizontal direction and the vertical direction, and the plurality of connected foundation structures have an outer peripheral portion in plan view. It is more preferable that the center part is connected with many foundation structures in the up-and-down direction rather than protruding downward.
With such a configuration, the foundation structure composed of a plurality of connected foundation structures can be stably floated on the sea because the central portion reaches a deeper position in the sea than the outer circumferential portion. Thereby, even when the upper structure built on the upper part of the foundation structure is a high-rise building or a high-rise building, the foundation structure can support the upper structure in a stable state.

Further, in the construction method of the foundation structure of the floating structure according to the present invention, the outer periphery of the foundation structure is connected to the foundation unit disposed inside and is adjacent to the foundation structure. It is preferable that the connection part which can be connected is provided.
With such a configuration, adjacent substructures can be easily connected to each other.

  According to the present invention, while having predetermined strength, it can construct efficiently.

FIG. 1 is an elevation view of 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 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 base unit, (b) is a perspective view of (a). It is a top view which shows the connected 1st base unit. (A) illustrates the method of installing the first foundation structure of the core portion, (b) illustrates the method of installing the second foundation structure of the core portion, (c) illustrates the third foundation of the core portion 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 the 1st perimeter, (b) is a figure explaining the construction method of the 1st outside foundation structure of the 1st perimeter, (c) The figure explaining the construction method of the 2nd inner side foundation structure and the 2nd outer side foundation structure of the 1st perimeter, (d) is the construction of the 3rd inner foundation and the 3rd outside foundation structure of the 1st perimeter It is a figure explaining a method.

Hereinafter, the foundation structure of the floating structure according to the embodiment of the present invention and the construction method of the foundation structure of the floating structure will be described based on FIGS. 1 to 8.
As shown in FIG. 1, the floating structure 1 according to the present embodiment is provided on the sea, and a base part (base structure) 2 floats on the sea, a foundation accessory part 3 attached to the base part 2, and a base And an upper structure 4 built on top of the part 2.
The base accessory portion 3 is provided, for example, to receive buoyancy with the base portion 2 or to maintain the base portion 2 in a stable state on the sea.
The superstructure 4 is a tower-like high-rise building or a high-rise building, and a living space, an office space, a commercial facility, a recreation facility such as a park, etc. are provided.

As shown in FIG. 2, in the present embodiment, the base portion 2 is formed such that the central portion 2 b protrudes downward more than the outer peripheral portion 2 a side.
The base portion 2 has a core portion 21 disposed in the central portion 2 b in a plan view, a first outer circumferential portion 22 formed in an annular shape along an outer circumferential portion of the core portion 21 in a plan view, and a first outer periphery in a 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 on the upper portion of the core portion 21.

The core portion 21 includes four substructures 211A (200) to 211D (200) connected in the vertical direction. In the present embodiment, the four basic structures 211A to 211D are formed in substantially the same hexagonal shape in plan view shape. In addition, in FIG. 2, it abbreviate | omits and the planar view shape of four foundation structures 211A-211D is made circular.
Here, among the four foundation structures 211A to 211D, the foundation structure disposed at the bottom is referred to as a first foundation structure 211A, and on top of that, a second foundation structure 211B, a third foundation structure 211C, and a third foundation structure 211C. It shall be arrange | positioned in order of 4 foundation structure 211D.
As shown in FIG. 4, these four foundation structures 211A to 211D are each composed of a plurality of foundation units 5, 5... Horizontally connected and a plurality of foundation units 5, 5. It is provided so that it may surround and it has the connection part 6 to which inner foundation structure 221A-221C of the 1st outer peripheral part 22 is connected. The four basic structures 211A to 211D have a substantially hexagonal planar view when the connecting portions 6 are provided on the outer periphery of the plurality of basic units 5.

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

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

  Further, as shown in FIG. 4, in the second basic unit 52 of the plurality of basic units 5, 5,..., Eleven cells 7, 7... Are arranged in the same plane, and four in the first direction X. Are arranged, and 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 arranged in the first direction X, 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.

  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 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 Are arranged in the first direction X on one side in the second direction Y of the four cells 7, 7...

And in this embodiment, as shown in FIG. 6, six 1st base units 51, 51 ... are arranged and connected 2 each in 1st direction X, 3 each in 2nd direction Y, and are connected. The three first base units 51 arranged on the other side of the first direction X with respect to the three first base units 51, 51, 51 arranged on one side of the first direction X are horizontal planes, respectively. It is arranged in the direction rotated 180 ° C. inside. The six first basic units 51 are connected so that no space is formed between the adjacent first basic units 51.
In the first basic units 51, 51 to be connected, the walls 71, 71 of the adjacent cells 7, 7 and the bottoms 72, 72 are connected by, for example, PC steel, etc. Grout is filled between 71 and 71 and between the bottoms 72 and 72. The connection between the basic units 5 and 5 other than the first basic unit 51 is also made of, for example, PC steel or grout, as in the connection between the first basic units 51 and 51.

Returning to FIG. 4, one second foundation unit 52 and one third foundation unit 53 are arranged in the first direction X on one side of the six first foundation units 51 arranged in the second direction Y. It is connected in a lined state. Further, the second base unit 52 and the third base unit 53 are also connected.
When these six first base units 51, 51..., One second base unit 52 and one third base unit 53 are connected, the outer shape in a plan view thereof is substantially rectangular.

In addition, these six connected first base units 51, 51..., One second base unit 52 and one third base unit 53, the 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 is substantially hexagonal.
In addition, according to the planar view shape which these some basic units 51-54 are connected, and are comprised, a part of several basic units 54, 54 ... except 1st-3rd basic unit 51, 52, 53. May include a basic unit 54 configured of only one cell 7.

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

Returning to FIG. 2 and FIG. 3, the first outer peripheral portion 22 includes three inner foundation structures 221A (200) to 221C (200) which are disposed on the central portion 2b side of the base portion 2 and vertically connected. And three outer foundation structures 222A (200) to 222C (200), which are disposed closer to the outer peripheral portion 2a of the foundation than the inner foundation structures 221A to 221C, and are connected in the vertical direction. The inner foundation structures 221A to 221C and the outer foundation structures 222A to 222C are connected.
Here, the foundation structure disposed at the bottom of the three inner foundation structures 221A to 221C is referred to as a first inner foundation structure 221A, on which the second inner foundation structure 221B, the third inner foundation structure It shall be arrange | positioned in order of the body 221C. In addition, the foundation disposed at the bottom of the three outer foundations 222A to 222C is referred to as a first outer foundation 222A, on which the second outer foundation 222B, the third outer foundation It is assumed that they are arranged in the order of 222C.

  The inner foundation structures 221A to 221C and the outer foundation structures 222A to 222C are, 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 basic units 5, 5 and so on, to which another basic structure 200 is connected.

  The base units 5, 5 ... of the inner base structures 221A-221C and the outer base structures 222A-222C have a plurality of cells 7, 7 ... similar to the base units 5 of the base structures 211A-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 inner base structures 221A to 221C and the outer base structures 222A to 222C, respectively. It is designed to be configurable in number and arrangement.

  The second outer circumferential portion 23 is an inner foundation structure 231 (200) disposed on the central portion 2b side of the foundation portion 2 and an intermediate foundation disposed on the outer circumferential portion 2a side of the foundation portion 2 with respect to the inner foundation structure 231. It has a structure 232 (200) and an outer base structure 233 (200) disposed closer to the outer peripheral portion 2a of the base portion 2 than the intermediate base structure 232. The inner foundation structure 231 and the middle foundation structure 232 are connected, and the middle foundation structure 232 and the outer foundation structure 233 are connected.

  The inner foundation structure 231, the middle foundation structure 232, and the outer foundation structure 233 are respectively connected to a plurality of foundation units horizontally connected in the same manner as 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 basic units 5, 5 and so on, to which another basic structure 200 is connected.

  The base units 5, 5 ... of the inner base structure 231, the middle base structure 232 and the outer base structure 233 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 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 middle base structure 232 and the outer base structure 233 are respectively the inner base structure 231, the middle base structure 232 and the outer base The structures 233 are designed in a configurable number and arrangement.

Then, the construction method of foundation part 2 of floating type structure 1 by this embodiment is explained.
First, the basic units 5, 5 ... are manufactured.
The lower side 5A of the base unit 5 on the bottom 72 side of the cell 7 shown in FIG. 5 (b) 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 Send to
Subsequently, concrete on the upper side 5B of the base unit 5 is cast on the upper part 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 cast stepwise from the lower side to the upper side. Then, a basic unit 5 having a predetermined height dimension is manufactured.
In addition, the connector 6 is manufactured. The lower part of the connecting part 6 is manufactured in the manufacturing yard in the same way as the manufacturing of the basic units 5, 5, ..., and the lower part of the manufactured connecting part 6 is sent out to the sea and connected at sea. Concrete is placed on the upper side of the portion 6 to manufacture the connection portion 6 having a predetermined height dimension.

Subsequently, the core unit 21 is constructed.
First, as shown in FIG. 7A, the basic units 5, 5... And the connecting portion 6 are connected to construct a first basic structure 211A of the core portion 21.
Subsequently, the basic units 5, 5... And the connecting portion 6 are connected to construct the second basic structure 211B of the core portion 21. And as shown in FIG.7 (b), the 2nd foundation structure 211B is connected with the upper part of the 1st foundation structure 211A.

Subsequently, as shown in FIG. 7C, the basic units 5, 5... And the connecting portion 6 are connected to construct a third basic structure 211C of the core portion 21. Then, the third foundation structure 211C is connected to the top of the second foundation structure 211B.
Subsequently, the basic units 5, 5, ... and the connecting portion 6 are connected to construct a fourth basic structure 211D of the core portion 21. Then, the fourth basic structure 211D is connected to the upper portion of the third basic structure 211C.
Thus, the core unit 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 221A of the first outer peripheral portion 22. Then, the first inner foundation structure 221A is connected to the foundation structures 211A to 211D of the core portion 21 so as to be relatively movable in the vertical direction.
Subsequently, as shown in FIG. 8B, the base units 5, 5... And the connecting portion 6 are connected to construct the first outer base structure 222A of the first outer peripheral portion 22. Then, 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 connected so as not to relatively move in the vertical direction and in the horizontal direction.

Subsequently, the foundation units 5, 5... And the connecting portion 6 are connected to construct the second inner foundation structure 221B of the first outer peripheral portion 22 and the second outer foundation structure 222B of the first outer peripheral portion 22. Then, the second inner base structure 221B and the second outer base structure 222B are connected.
Then, the connected second inner base structure 221B and the second outer base structure 222B are connected on the first inner base structure 221A and the first outer base structure 222A. At this time, the second inner foundation structure 221B is connected 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 221C and the third outer foundation 222C of the first outer peripheral portion 22 are constructed. Then, while connecting the third inner base structure 221C and the third outer base structure 222C, and connecting the third inner base structure 221C and the third outer base structure 222C, the second inner base structure It is connected to the top of the body 221B and the second outer base structure 222B.
Thereby, the first outer peripheral portion 22 is constructed. In the first outer peripheral portion 22, the upper surfaces of the third inner foundation structure 221C and the third outer foundation structure 222C are disposed in the vicinity of the sea surface.

Subsequently, the second outer peripheral portion 23 is constructed.
First, as shown in FIG. 3, the foundation units 5, 5... And the connecting portion 6 are connected to construct the inner foundation structure 231 of the second outer peripheral portion 23, and the inner foundation structure 231 is constructed as the first outer peripheral portion 22. And the outer foundation structure 222 of the
Subsequently, the foundation units 5, 5... And the connecting portion 6 are connected to construct an intermediate foundation structure 232 of the second outer peripheral portion 23, and the 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 second outer peripheral portion 23 is constructed. In the second outer peripheral portion 23, the upper surfaces of the inner foundation structure 231, the middle foundation structure 232, and the outer foundation structure 233 are disposed in the vicinity of the sea surface.
Thus, the base portion 2 of the floating structure 1 is constructed.

Next, the operation and effects of the basic structure of the floating structure 1 described above will be described using the drawings.
In the foundation structure of the floating structure 1 according to the present embodiment described above, the foundation units 5, 5 ... have a honeycomb structure in which a plurality of bottomed cylindrical cells 7, 7 ... having a hexagonal shape in plan view are horizontally arranged. Because of this, it is possible to have a structure that is lightweight but has predetermined strength. And since foundation part 2 has foundation structure 200 which a plurality of above-mentioned foundation units 5 and 5 ... were connected, it can be considered as structure which has predetermined intensity.
Further, since the base units 5, 5... Have a honeycomb structure, the base unit 5 and the base structure 200 can be used as lightweight members. Thus, the base units 5, 5, ... and the base structure 200 can be easily transported on the sea, and the base 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.
Moreover, since the cell 7 is cylindrical with a bottom, water can be put into the inside of the cell 7 on the sea, and the buoyancy of the base unit 5 (the base structure 200) is set by adjusting the amount of water. Can.

Also, in the base portion 2, the core portion 21 has a larger dimension in the vertical direction than the first outer peripheral portion 22, and the first outer peripheral portion 22 has a larger dimension in the vertical direction than the second outer peripheral portion 23. It is a shape which protrudes below rather than the outer peripheral part 22 and the 2nd outer peripheral part 23. Thereby, since the core part 21 of the central part 2b reaches a deeper position in the sea than the first outer peripheral part 22 and the second outer peripheral part 23 on the outer peripheral part 2a side, the base part 2 floats stably on the sea. it can. Thereby, even when the upper structural body 4 built on the upper portion of the foundation portion 2 is a high-rise building or a high-rise building, the basic portion 2 can support the upper structural body 4 in a stable state.
Further, 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 part 2, by connecting the foundation structure 200 in the vertical direction and the horizontal direction, It can be easily installed.

  In the base units 5, 5, ..., the lower side 5A is manufactured in a manufacturing yard, and the upper side is manufactured by casting concrete on the sea. Thus, the lower side 5A of the foundation unit 5 manufactured in the production yard can be transported by sea to the vicinity of the place where the foundation unit 5 is installed, and the upper side 5B of the foundation unit 5 can be manufactured at this place. Therefore, it is possible to easily transport the basic unit 5 by sea as compared to the case where the entire basic unit 5 is manufactured at the production yard and transported by sea. Moreover, compared with the case where the basic unit 5 whole is manufactured by a production yard, a production yard can be made small scale and cost can be reduced.

As mentioned above, although the embodiment of the foundation structure of the floating type structure by the present invention and the construction method of the foundation structure of the floating type structure was explained, the present invention is not limited to the above embodiment and deviates from the meaning It can change suitably in the range which is not.
For example, in the above embodiment, the cells 7, 7 ... are formed in a cylindrical shape with a bottom in a hexagonal shape in plan view, but there is a polygon in a planar view other than a hexagonal shape in plan view such as a triangle or a square in plan view. It may be formed in a bottom cylindrical shape.

Moreover, in said embodiment, although the base part 2 is comprised from the core part 21, the 1st outer peripheral part 22, and the 2nd outer peripheral part 23, it may not be such a structure. The base portion 2 may be configured by combining a plurality of base units 5, 5, ... and the base structures 200, 200 ... connected with the connecting portion 6 according to the planar shape and the height dimension.
Further, in the above embodiment, the base structure 200 includes the base units 5, 5 and the connecting portion 6, but does not have the connecting portion 6. The base unit 5 of the base structure 200 may be connected.

Further, in the above-described embodiment, the core portion 21 of the central portion 2b of the base portion 2 protrudes downward below 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 to be flat. The shape and dimensions of the base portion 2 may be set arbitrarily.
Moreover, the base part 2 may be comprised by only one foundation structure 200. As shown in FIG.
Moreover, in the above-mentioned embodiment, although the upper structure 4 is constructed | assembled on the upper part of the base part 2, it does not need to be constructed | assembled. Also, when the upper structure 4 is constructed, the upper structure 4 may have a desired shape.
Moreover, in said embodiment, although the foundation accessory part 3 is installed in the base part 2, it is not necessary to install. Moreover, when the base additional part 3 is installed in the base part 2, the base additional part 3 may have a desired shape.

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

1 Floating structure 2 Foundation (Funding structure)
DESCRIPTION OF SYMBOLS 2a outer peripheral part 2b center part 3 foundation attachment part 4 upper structure 5 base unit 5A lower side 5B upper side 6 connection part 7 cell 21 core part 22 1st outer peripheral part 23 2nd outer peripheral part 200, 211A-211D foundation structure 221A ~ 221 C inner foundation structure (base structure)
222A to 222C Outer base structure (base structure)
231 Inner foundation structure (base structure)
232 Intermediate Foundation Structure (Base Structure)
233 Outer foundation structure (base structure)

Claims (3)

A foundation structure having a plurality of base units in which a plurality of bottomed cylindrical cells in a planar view polygon are horizontally arranged and which can float on the sea, and the plurality of base units are horizontally connected. A method of constructing a foundation structure of a floating structure having a body,
Manufacturing the lower side of the basic unit on land and sending it to the sea;
Placing concrete on the upper end portion of the lower side of the base unit delivered to the sea to produce the upper side of the base unit;
Forming a foundation structure by horizontally connecting a plurality of the foundation units of which lower side and upper side are manufactured on the sea to form a foundation structure of a floating structure. A plurality of the foundation structures are connected horizontally and vertically,
The floating body according to claim 1, wherein the plurality of connected basic structures are such that more basic structures are connected in the vertical direction in the central portion in the vertical direction than the outer peripheral portion in plan view, and project downward. Construction method of foundation structure of type structure . The outer peripheral portion of the base structure is provided with a connecting portion which is connected to the base unit disposed inside and which can be connected to the adjacent base structure. Or the construction method of the foundation structure of the floating structure as described in or 2.

Images