JP2020015362A - Construction method for floating structure - Google Patents

Abstract

To provide a construction method for a floating structure capable of adhering floating body blocks even when a space in the horizontal direction between the floating body blocks to be adhered is narrow.SOLUTION: First floating blocks 2B, 2D are formed with a side surface on the side to be adhered to a second floating block 2C formed on first inclined surfaces 47 and the second floating block 2C has side surfaces on the sides to be adhered with the first floating blocks 2B, 2D formed on the second inclined surfaces 57, 58 facing obliquely down. A second floating block installation step has: a second floating block upper installation step for installing the second floating block 2C above the first floating blocks 2B, 2D so that the second inclined surfaces 57, 58 are positioned above the first inclined surface 47; a second floating block lowering step for lowering the second floating block 2C so that the first inclined surface 47 and the second inclined surfaces 57, 58 are arranged facing each other; and a floating blocks adhering step for adhering the first floating blocks 2B, 2D with the second floating block 2C.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a method for constructing a floating structure.

BACKGROUND ART When a large floating structure is constructed on the ocean, mooring of the floating structure to dolphins provided on both sides thereof is known. In the dolphin mooring, since the dolphin is fixed to a pile supported on the sea floor, lateral movement of the moored floating structure can be reduced.
As a method of constructing such a large floating structure, a method of joining a plurality of floating blocks offshore is known (for example, see Patent Documents 1 to 4).
When the floating structure is constructed by joining a plurality of floating blocks and moored to dolphins provided on both sides, first, the floating blocks provided at both ends are fixed to the dolphin, and the floating bodies are sequentially fixed to the fixed floating blocks. Blocks may be joined.

JP-A-2002-019692 JP-A-2000-025686 JP-A-7-323883 JP-A-6-092288

  However, since the floating block fixed to the dolphin has a small range of lateral movement (horizontal movement), when the floating block to be finally joined is joined, it is already installed with the last joined floating block. The space in the horizontal direction from the floating block is narrow, and it is difficult to secure a space for the joining operation, and the construction is difficult.

  In view of the above, an object of the present invention is to provide a method of constructing a floating structure capable of joining floating blocks even when a horizontal space between the joined floating blocks is narrow.

  In order to achieve the above object, a construction method of a floating structure according to the present invention is a construction method of a floating structure constructed by joining a plurality of floating blocks on the ocean, wherein the side of the first floating block installed on the ocean is provided. A second floating body block installation step of installing a second floating body block on the side, wherein the side surface of the first floating body block that is joined to the second floating body block faces obliquely upward and faces downward from above. The first floating surface is formed on a first inclined surface gradually inclined toward a side closer to the second floating body block, and the side surface of the second floating body block joined to the first floating body block faces obliquely downward and upward. The second floating block is formed on a second inclined surface that is gradually inclined downward from the first floating block toward the side separated from the first floating block. In the second floating block installing step, the second floating block is formed by the second inclined surface. The said A second floating block upper arranging step of disposing the second floating block above the first floating block so as to be located above the inclined surface, and lowering the second floating block so that the first inclined surface and the second inclined surface face each other. The method is characterized by including a second floating block lowering step of disposing and a floating block joining step of joining the first floating block and the second floating block.

According to the present invention, the side surface of the first floating block joined to the second floating block is inclined obliquely upward from the upper side to the lower side and gradually inclines from the side separated from the two floating body blocks to the closer side. The side surface of the second floating block, which is formed on the first inclined surface, and is joined to the first floating block, faces diagonally downward and gradually separates from the side closer to the one floating block from the upper side to the lower side. It is inclined toward the side and formed on a second inclined surface.
Accordingly, the first inclined surface and the second inclined surface oppose each other in a direction oblique to the horizontal direction. Therefore, even when the horizontal distance between the first floating body block and the second floating body block is narrow, the second inclined surface is not restricted to the second inclined surface. If the floating block is disposed above the first floating block, a space can be provided between the first inclined surface and the second inclined surface. And the space | interval of this 1st inclined surface and a 2nd inclined surface can be made into the space for joining a 1st floating body block and a 2nd floating body block.
As a result, the first floating block and the second floating block can be bonded even when the horizontal distance between the first floating block and the second floating block to be bonded is narrow.

In the method for constructing a floating structure according to the present invention, a concave portion is formed on one of the first inclined surface and the second inclined surface, and a convex portion that fits with the concave portion is formed on the other. Then, in the floating block joining step, the concave portion and the convex portion may be fitted.
With this configuration, by fitting the concave portion and the convex portion, the positioning of the second floating block with respect to the first floating block can be easily performed.

  According to the present invention, the first floating block and the second floating block can be bonded even when the horizontal distance between the first floating block and the second floating block to be bonded is small.

It is a top view showing an example of a floating structure according to an embodiment of the present invention. It is the side view seen from the 2nd horizontal direction showing an example of the floating structure by an embodiment of the present invention. FIG. 2 is a view for explaining a second floating body block upper disposing step, a first floating body block and a second floating body block, and is a view corresponding to a cross section taken along line AA of FIG. 1. It is the side view which looked at the 2nd side wall part of the 1st floating body block from the 2nd floating body block side. It is a figure explaining the 2nd floating block lowering process. FIG. 6 is a diagram illustrating a second floating block lowering process following FIG. 5. It is a figure explaining a floating body block joining process. FIG. 8 is a diagram illustrating a floating block joining process following FIG. 7. FIG. 9 is a diagram illustrating a floating block joining process following FIG. 8. It is a figure explaining the 1st floating body block and the 2nd floating body block by the modification of this embodiment.

Hereinafter, a construction method of a floating structure according to an embodiment of the present invention will be described with reference to FIGS. 1 to 9.
As shown in FIGS. 1 and 2, the floating structure 1 according to the present embodiment is constructed by joining a plurality of concrete floating blocks 2, and is moored on the ocean 11 by dolphin mooring.
In the present embodiment, the plurality of floating blocks 2 are arranged linearly in the horizontal direction. Hereinafter, the horizontal direction in which the plurality of floating blocks 2 are arranged is referred to as a first horizontal direction (the direction of arrow X in the drawing), and a horizontal direction orthogonal to the first horizontal direction is referred to as a second horizontal direction (arrow in the drawing). Y direction).

In the present embodiment, the floating structure 1 is provided between two dolphins 31 and 32 provided at an interval in the first horizontal direction, and the floating structure 1 is fixed to each of the two dolphins 31 and 32. I have. The two dolphins 31, 32 are each fixed to a pile 33 (see FIG. 2) supported on the sea floor.
In the floating structure 1 of the present embodiment, five floating blocks 2 are arranged in the first horizontal direction, and the floating blocks 2 adjacent to each other in the first horizontal direction are joined with their side surfaces facing each other.
The five floating blocks 2 are referred to as floating blocks 2A-2E from one side in the first horizontal direction to the other side. In the following, the second floating block 2B and the fourth floating block 2D from one side in the first horizontal direction are referred to as first floating blocks 2B and 2D, and the first floating block 2B and 2D from the first horizontal direction which is the center of the array. The first floating block 2C is referred to as a second floating block 2C, and the first floating block 2A and the fifth floating block 2E from one side in the first horizontal direction, which are both ends of the array, are referred to as third floating blocks 2A and 2E. And

The two third floating blocks 2A, 2E are fixed to dolphins 31, 32, respectively. The third floating block 2A on one side in the first horizontal direction is fixed to the dolphin 31 on one side in the first horizontal direction, and the third floating block 2E on the other side in the first horizontal direction is connected to the dolphin on the other side in the first horizontal direction. 32.
The third floating blocks 2A and 2E are formed in a rectangular parallelepiped outer shape. The third floating block 2A, 2E is installed such that the upper surface and the lower surface are horizontal, and the four side surfaces are vertical surfaces in the first horizontal direction or the second horizontal direction.

  Each of the third floating blocks 2A and 2E has a ballast water accommodating portion 23 formed therein for accommodating ballast water. The third floating block 2A, 2E is provided with a water inlet for injecting external water into the ballast water storage unit 23 and a drain port for discharging the water in the ballast water storage unit 23 to the outside. The water inlet is provided on the side surface of the third floating block 2A, 2E, and the water inlet is provided with a water injection valve. The third floating blocks 2A and 2E are configured to be injected into the ballast water storage unit 23 by opening a water injection valve.

As shown in FIG. 1 to FIG. 3, the first floating blocks 2B and 2D are formed in trapezoidal columnar shapes having a trapezoidal shape when viewed from the second horizontal direction. FIG. 3 shows a state where the first floating blocks 2B and 2D and the second floating block 2C are separated from each other before being joined.
The first floating blocks 2B and 2D have a ballast water accommodating portion 21 that can accommodate ballast water inside. A water inlet for injecting external water into the ballast water housing 21 and a water outlet for discharging the water in the ballast water housing 21 to the outside are provided. The water inlet is provided on the side surface of the first floating block 2B, 2D, and the water inlet is provided with a water injection valve. The first floating blocks 2B and 2D are configured to be injected into the ballast water storage unit 21 by opening a water injection valve.

  As shown in FIG. 3, the first floating blocks 2B and 2D include an upper plate portion 41 disposed above the ballast water storage portion 21 and a lower plate portion 42 disposed below the ballast water storage portion 21. A first side plate portion 43 (see FIG. 2) disposed on the third floating block 2A, 2E side of the ballast water storage portion 21, and a second side plate disposed on the second floating body block 2C side of the ballast water storage portion 21. Portion 44, a third side plate portion 45 disposed on one side of the ballast water storage portion 21 in the second horizontal direction, and a fourth side plate portion 46 disposed on the other side of the ballast water storage portion 21 in the second horizontal direction. And The upper plate portion 41, the lower plate portion 42, and the 1-4 side plate portions 43-46 are each formed in a flat plate shape.

As shown in FIG. 2, the upper plate portion 41 is arranged such that the plate surface is a horizontal plane.
The lower plate portion 42 is disposed below the upper plate portion 41 such that the plate surface is a horizontal plane. The lower plate portion 42 is formed longer in the first horizontal direction than the upper plate portion 41. The edge of the lower plate portion 42 on the third floating block 2A, 2E side is disposed vertically below the edge of the upper plate portion 41 on the third floating block 2A, 2E side. The edge 42a on the floating block 2C side is disposed closer to the second floating block 2C than the edge 41a of the upper plate 41 on the third floating block 2A, 2E side.
The first side plate 43 has an upper edge connected to an edge of the upper plate 41 on the third floating block 2A, 2E side, and a lower edge formed of an edge of the lower plate 42 on the third floating block 2A, 2E side. Connected to the department. The first side plate portion 43 is arranged in a direction in which the plate surface is a vertical plane facing the first horizontal direction.

As shown in FIG. 3, the second side plate portion 44 has an upper edge portion 44 a connected to the edge portion 41 a of the upper plate portion 41 on the side of the second floating block 2 </ b> C, and a lower edge portion 44 b formed of the second plate portion 42 of the lower plate portion 42. It is connected to the edge 42a on the floating block 2C side. The second side plate portion 44 is arranged such that the plate surface does not become a vertical surface, but gradually inclines from the upper side to the lower side toward the side closer to the two floating body blocks 2C. Assuming that the surface of the second side plate portion 44 on the side of the second floating block 2C is a first inclined surface 47, the first inclined surface 47 gradually moves from the upper side to the lower side toward the side closer to the two floating body blocks 2C. It is inclined and faces obliquely upward.
As shown in FIGS. 3 and 4, the second side plate portion 44 has a first inclined surface 47 for stopping water extending along the lower edge of the first inclined surface 47 and both edges in the second horizontal direction. A rubber gasket 48 is provided. The rubber gasket 48 is provided so as to have a U-shape that opens upward as viewed from the first horizontal direction.

As shown in FIGS. 2 and 3, the third side plate 45 has an upper edge connected to one edge of the upper plate 41 in the second horizontal direction, and a lower edge connected to the first side of the lower plate 42. 2 is connected to one edge in the horizontal direction, the edge on the third floating block 2A, 2E side is connected to one edge in the second horizontal direction of the first side plate 43, and the second floating block 2C is connected. The side edge is connected to one edge of the second side plate portion 44 in the second horizontal direction. The third side plate portion 45 is arranged in a direction in which the plate surface is a vertical plane facing the second horizontal direction.
The fourth side plate 46 has an upper edge connected to the other edge of the upper plate 41 in the second horizontal direction, and a lower edge connected to the other edge of the lower plate 42 in the second horizontal direction. The edge of the third floating block 2A, 2E side is connected to the other edge of the first side plate 43 in the second horizontal direction, and the edge of the second floating block 2C is connected to the second side plate 44. Is connected to the other edge in the second horizontal direction. The fourth side plate portion 46 is arranged in a direction in which the plate surface is a vertical plane facing the second horizontal direction.

As shown in FIG. 3, the second floating block 2C is formed in a trapezoidal column shape whose shape when viewed from the second horizontal direction is trapezoidal.
The 2nd floating body block 2C is formed with a ballast water storage section 22 capable of storing ballast water inside. A water inlet for injecting external water into the ballast water housing 22 and a water outlet for discharging the water in the ballast water housing 22 to the outside are provided. The water inlet is provided on the side surface of the second floating block 2C, and the water inlet is provided with a water injection valve.

  The second floating block 2C includes an upper plate portion 51 disposed above the ballast water storage portion 22, a lower plate portion 52 disposed below the ballast water storage portion 22, and a first plate portion 52 of the ballast water storage portion 22. A first side plate portion 53 disposed on one side in the horizontal direction, a second side plate portion 54 disposed on the other side of the ballast water storage portion 22 in the first horizontal direction, and a second horizontal direction of the ballast water storage portion 22 And a fourth side plate portion 56 disposed on the other side of the ballast water accommodating portion 22 in the second horizontal direction. The upper plate portion 51, the lower plate portion 52, and the 1-4 side plate portions 53-56 are each formed in a flat plate shape.

The upper plate portion 51 is arranged so that the plate surface becomes a horizontal plane.
The lower plate portion 52 is disposed below the upper plate portion 51 such that the plate surface is a horizontal plane. The lower plate portion 52 is formed shorter in the first horizontal direction than the upper plate portion 51. The edge 52a on one side in the first horizontal direction of the lower plate portion 52 is arranged on the other side in the first direction than the edge 51a on the first horizontal direction of the upper plate portion 51, and the lower plate portion 52 The edge portion 52b on the other side in the first horizontal direction is disposed on one side in the first direction from the edge portion 51b on the other side in the first horizontal direction of the upper plate portion 51.

The first side plate 53 has an upper edge connected to one edge of the upper plate 51 in the first horizontal direction, and a lower edge connected to one edge of the lower plate 52 in the first horizontal direction. It is connected. The first side plate portion 53 is arranged so that the plate surface does not become a vertical surface and is inclined from the upper side to the lower side toward the other side in the first horizontal direction. The surface on one side in the first horizontal direction of the first side plate portion 53 is gradually inclined from the upper side to the lower side toward the other side in the one horizontal direction, and faces obliquely downward.
One surface in the first horizontal direction of the first side plate portion 53 is defined as a second inclined surface 57.

The second side plate 54 has an upper edge connected to the other edge of the upper plate 51 in the first horizontal direction, and a lower edge connected to the other edge of the lower plate 52 in the first horizontal direction. It is connected. The second side plate portion 54 is arranged so that the plate surface does not become a vertical surface and is inclined from one side to the other in the first horizontal direction from the upper side to the lower side. The surface on the other side in the first horizontal direction of the second side plate portion 54 is gradually inclined toward one side in one horizontal direction from the upper side to the lower side, and faces obliquely downward.
The other surface in the first horizontal direction of the second side plate portion 54 is defined as a second inclined surface 58.

The third side plate 55 has an upper edge connected to one edge of the upper plate 51 in the second horizontal direction, and a lower edge connected to one edge of the lower plate 52 in the second horizontal direction. One side edge in the first horizontal direction is connected to one side edge in the second horizontal direction of the first side plate portion 53, and the other side edge in the first horizontal direction is connected to the second side plate portion 44. Is connected to one edge in the second horizontal direction. The third side plate portion 55 is arranged in a direction in which the plate surface is a vertical plane facing the second horizontal direction.
The fourth side plate 56 has an upper edge connected to the other edge of the upper plate 51 in the second horizontal direction, and a lower edge connected to the other edge of the lower plate 52 in the second horizontal direction. One side edge in the first horizontal direction is connected to the other side edge in the second horizontal direction of the first side plate portion 53, and the other side edge in the first horizontal direction is connected to the second side plate portion 54. Is connected to the other edge in the second horizontal direction. The fourth side plate portion 56 is arranged in a direction in which the plate surface is a vertical plane facing the second horizontal direction.

  In the present embodiment, the first floating blocks 2B and 2D and the third floating blocks 2A and 2E that are adjacent to each other in the first horizontal direction are joined with a PC steel material, and prestress is introduced into the PC steel material. Further, the first floating blocks 2B, 2D and the second floating block 2C which are adjacent to each other in the first horizontal direction are joined by a PC steel material 6 (see FIG. 9), and a prestress is introduced to the PC steel material 6.

Next, the construction method of the floating structure 1 according to the present embodiment will be described.
First, a third floating block installation step of installing the third floating blocks 2A and 2E is performed.
In the third floating block installation step, the dolphins 31 and 32 are installed, and the third floating blocks 2A and 2E manufactured in advance are transported to the installation sea area and fixed to the dolphins 31 and 32, respectively. The fixing of the third floating blocks 2A, 2E to the dolphins 31, 32 is performed by a known method.

Subsequently, a first floating block installation step of installing the first floating blocks 2B and 2D is performed.
In the first floating block installation step, the first floating blocks 2B and 2D manufactured in advance are transported to the installation sea area and fixed to the third floating blocks 2A and 2E. The first floating blocks 2B, 2D and the third floating blocks 2A, 2E are joined by a known method.
In the joining work between the first floating blocks 2B and 2D and the third floating blocks 2A and 2E, a space where the second floating block 2C is installed between the two first floating blocks 2B and 2D is used as a working space. Can be.
When the two first floating blocks 2B and 2D are joined to the third floating blocks 2A and 2E, respectively, they are separated from each other in the first horizontal direction.

Subsequently, a guide member setting step of setting the guide member 71 (see FIG. 3) below the two first floating blocks 2B and 2D is performed.
As shown in FIG. 3, the guide member 71 is a member extending in the first horizontal direction, and the lower surface of the first floating block 2B in which one end 71a in the first horizontal direction is arranged on one side in the first horizontal direction. , And the other end 71b in the first horizontal direction is fixed to the lower surface of the first floating block 2D arranged on the other side in the first horizontal direction. The upper surface 71c of the guide member 71 becomes a horizontal plane and is arranged at the same height as the lower surfaces of the first floating blocks 2B and 2D.
The guide member 71 is intended to integrate the first floating blocks 2B and 2D, and to maintain a separation therebetween. Further, the lower surface 52c of the second floating body block 2C abuts on the upper surface thereof, so that the second floating body block 2C can be positioned with respect to the first floating body blocks 2B and 2D.
The guide member 71 is installed on the first floating blocks 2B, 2D after the two first floating blocks 2B, 2D are fixed to the third floating blocks 2A, 2E, respectively. In FIG. 3, the guide member 71, in which the second floating block 2C is floating on the sea, is moved to the first floating blocks 2B, 2D before the second floating block 2C is drawn between the first floating blocks 2B, 2D. Install.

Subsequently, a second floating block installation step of installing the second floating block 2C is performed.
In the second floating block installation step, first, as shown in FIG. 3, the water injection valves of the first floating blocks 2B and 2D and the third floating blocks 2A and 2E installed on the ocean 11 are opened to open the ballast water inside. The ballast water 12 is injected into the storage portions 21 and 23, and the drafts of the first floating blocks 2B and 2D and the third floating blocks 2A and 2E are increased, so that the first floating blocks 2B and 2D and the third floating blocks 2A and 2E. Each lower side is sunk to a predetermined depth. The first floating blocks 2B, 2D and the third floating blocks 2A, 2E installed on the ocean 11 can be moved up and down within a predetermined range while being fixed to the dolphins 31 and 32.

Subsequently, a second floating block upper arranging step of transporting the previously manufactured second floating block 2C to the installation sea area and arranging the second floating block 2C above the two first floating blocks 2B and 2D is performed.
In the second floating block upper arranging step, first, the second floating block 2C is transported to a place distant from the installation space of the second floating block 2C (the space between the two first floating blocks 2B and 2D). At this time, the ballast water accommodating portion 22 of the second floating block 2C is kept empty, and the draft is reduced.
The second floating block 2C is towed between the two first floating blocks 2B and 2D, and the second floating block 2C is connected to a winch 81 provided on the first floating blocks 2B and 2D by a wire 82 (see FIG. 5). I do. When retracting the second floating block 2C between the two first floating blocks 2B, 2D, the first floating blocks 2B, 2B, 2B, 2D are used to reduce friction between the second floating block 2C and the two first floating blocks 2B, 2D. A guide roller 73 (see FIG. 3) is installed in 2D.
The second floating block 2C has a lower draft than the first floating blocks 2B, 2D and the third floating blocks 2A, 2E in a state where the ballast water storage unit 22 is empty, so that the second floating block 2C is higher than the first floating blocks 2B, 2D. Be placed.
At this time, the second floating block 2C has its second inclined surface 57 located above the first inclined surface 47 of the first floating block 2B, and its second inclined surface 58 corresponds to the first inclined surface 47 of the first floating block 2D. Is adjusted so that it is located above.

Subsequently, a second floating block lowering step of lowering the second floating block 2C so as to have the same height as the first floating blocks 2B and 2D is performed.
As shown in FIG. 5, in the second floating body block lowering step, the water injection valve of the second floating body block 2C is opened to inject the ballast water 12 into the internal ballast water accommodating portion 22, and the draft of the second floating body block 2C is reduced. Then, as shown in FIG. 6, the second floating block 2C is lowered to the same depth as the first floating blocks 2B and 2D. By operating the winch 81 in addition to the draft adjustment, the second floating block 2C is arranged at the correct position.
At this time, the lower surface 52c of the second floating block 2C is brought into contact with the upper surface 71c of the guide member 71, and the second inclined surfaces 57, 58 of the second floating block 2C are changed to the first inclined surfaces of the first floating blocks 2B, 2D. 47 is brought into contact with the rubber gasket 48.
Thus, the second floating block 2C is arranged between the two first floating blocks 2B and 2D.
The second floating block 2C arranged at the normal position is temporarily fixed, for example, by a hydraulic arm 72 (see FIG. 7) provided on the first floating blocks 2B and 2D.

Subsequently, a floating block joining step of joining the first floating block 2B and the second floating block 2C and joining the first floating block 2D and the second floating block 2C is performed.
As shown in FIG. 7, in the floating block joining step, first, the seawater 13 between the first floating block 2D and the second floating block 2C and between the first floating block 2B and the second floating block 2C is pumped up. Drain. 7 to 10 show the joining between the first floating block 2B and the second floating block 2C. The first floating block 2D and the second floating block 2C are joined in the same manner as the first floating block 2B and the second floating block 2C.

In the present embodiment, since the rubber gasket 48 (see FIG. 4 and omitted in FIG. 7) is provided in a U-shape that opens upward, the seawater 13 inside the rubber gasket 48 is drained.
As a result, the first floating blocks 2B, 2D and the second floating block 2C approach each other due to the water pressure acting on the first floating blocks 2B, 2D and the second floating block 2C from the outside, and the rubber gasket 48 is moved to the second floating block 2C. Of the first floating blocks 2B, 2D and the first inclined surfaces 47 of the first floating blocks 2B, 2D, are in a collapsed state, and the first floating blocks 2B, 2D and the second floating blocks 2C are hydraulically joined. .

When the first floating blocks 2B, 2D and the second floating blocks 2C are hydraulically joined, the ballast water 12 of the first floating blocks 2B, 2D, the second floating blocks 2C, and the third floating blocks 2A, 2E (see FIG. 6). Drain.
Then, as shown in FIG. 8, while joining the 2nd side plate part 44 of the 1st floating body block 2B and the 1st side plate part 53 of the 2nd floating body block 2C, the 2nd side plate part of the 1st floating body block 2D. 44 (see FIG. 3) and the second side plate portion 54 (see FIG. 3) of the second floating block 2C.
A PC sheath 61 for inserting the PC steel material 6 (see FIG. 9) is provided in the second side plate portion 44 of the first floating block 2B and the first side plate portion 53 of the second floating block 2C. A PC sheath (not shown) through which the PC steel material 6 is inserted is provided in the second side plate portion 44 and the second side plate portion 54 of the second floating body block 2C.
The grout material 62 is filled between the first floating block 2B, 2D and the second floating block 2C, and curing is performed for a predetermined period.
Subsequently, as shown in FIG. 9, the PC steel material 6 is inserted into the PC sheath 61 to introduce prestress.
The grout material 63 is filled in the PC sheath 61.
In this way, the first floating blocks 2B and 2D and the second floating block 2C are joined, and the floating structure 1 is constructed.

Next, the operation and effect of the construction method of the floating structure 1 according to the above-described embodiment will be described with reference to the drawings.
In the construction method of the floating structure 1 according to the present embodiment, the side surfaces of the first floating blocks 2B and 2D that are joined to the second floating block 2C face diagonally upward and gradually move upward from the upper side to the lower side. The side surface of the second floating body block 2C on the side joined to the first floating body blocks 2B and 2D is formed on the first inclined surface 47 that is inclined from the side away from the floating body block 2C to the side closer to the floating body block 2C. It is formed on a second inclined surface 57 which is gradually inclined from the upper side to the lower side and from the side close to the one floating body block 2B, 2D toward the side away from it.
As a result, the first inclined surface 47 and the second inclined surface 57 face each other in a direction oblique to the horizontal direction, so that the horizontal spacing between the first floating blocks 2B and 2D and the second floating block 2C is increased. Even if it is narrow, if the second floating block 2C is arranged above the first floating blocks 2B and 2D, a space can be provided between the first inclined surface 47 and the second inclined surface 57. The space between the first inclined surface 47 and the second inclined surface 57 can be used as a space for joining the first floating blocks 2B, 2D and the second floating block 2C.
As a result, even when the horizontal distance between the first floating block 2B, 2D and the second floating block 2C to be joined is narrow, the first floating block 2B, 2D and the second floating block 2C are joined. Can be.

As described above, the embodiment of the method of constructing a floating structure according to the present invention has been described. However, the present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the gist thereof.
For example, in the above embodiment, the floating blocks 2 are arranged in the first horizontal direction, but may be arranged in both the first horizontal direction and the second horizontal direction. Further, the floating block 2 may have a shape other than the above as long as the first inclined surface 47 is formed on the first floating blocks 2B and 2D and the second inclined surface 57 is formed on the second floating block 2C. Good.

  Further, in the above-described embodiment, the second inclined surfaces 57, 58 are formed on both sides of the second floating block 2C in the first horizontal direction, respectively, and the first floating blocks 2B, 2B, which are joined to both sides of the second floating block 2C. A first inclined surface 47 is formed in each of the 2Ds, and the first inclined surface 47 and the second inclined surfaces 57 and 58 are arranged to face each other. On the other hand, the second floating block has the second inclined surface formed only on one of both sides in the first horizontal direction, and is connected to the side of the second floating block on which the second inclined surface is formed. A first inclined surface may be formed only in the first floating body block, and the first inclined surface and the second inclined surface may be arranged to face each other.

  Further, like the floating structure 1B shown in FIG. 10, a concave portion 91 is formed on one of the first inclined surface 47B and the second inclined surface 57B (the second inclined surface 57B in FIG. 10), and the other ( In FIG. 10, the first inclined surface 47 </ b> B) is provided with a convex portion 92 that fits into the concave portion 91, and the concave portion 91 and the convex portion 92 may be fitted in the floating block joining step. By doing so, by fitting the concave portion 91 and the convex portion 92, it is possible to easily position the second floating block 2C with respect to the first floating block 2B.

1, 1B Floating structure 2A, 2E Third floating block 2B, 2D First floating block 2C Second floating block 11 Offshore 31, 32 Dolphin 47, 47B First inclined surface 57, 58, 57B Second inclined surface 91 Depressed portion 92 Convex part

Claims (2)

A method for constructing a floating structure constructed by joining a plurality of floating blocks on the ocean, comprising a second floating block installation step of installing a second floating block beside the first floating block installed on the ocean,
The first floating block has a first slope in which a side surface on a side joined to the second floating block is inclined obliquely upward and downward from an upper side toward a side closer to the second floating body block. Formed on the surface,
The second floating body block has a second inclined surface in which a side surface on a side joined to the first floating body block faces obliquely downward and gradually inclines from an upper side to a lower side toward a side separated from the first floating body block. Formed on the surface,
The second floating block setting step is a step of arranging the second floating block above the first floating block such that the second inclined surface is located above the first inclined surface. When,
A second floating block lowering step of lowering the second floating block and disposing the first inclined surface and the second inclined surface to face each other;
A floating block joining step of joining the first floating block and the second floating block to each other. A concave portion is formed on one of the first inclined surface and the second inclined surface, and a convex portion that fits with the concave portion is formed on the other,
The method according to claim 1, wherein, in the floating block joining step, the concave portion and the convex portion are fitted.

Images