JPS6054451B2 - Installation method for underwater structures - Google Patents

Description

[Detailed description of the invention] The present invention relates to an installation method for underwater structures.

Conventionally, as shown in FIGS. 1 and 2, when an underwater structure 4 is installed on a foundation 3 having a plurality of anchor bolts 2 made on the water bottom 1, the underwater structure 4 is installed on a professional It was carried out by suspending it by grain 5.

In this case, installing the underwater structure 4 on the foundation 3 becomes a very difficult task. This is because it is difficult to suspend the underwater structure 4 to the position of the anchor bolt 2 without shaking. That is, the underwater structure 4 suspended on the Pro-Citta grain 5 is
The base 6 of this underwater structure 4 performs complicated behavior due to the oscillation of the underwater structure 4 and the oscillation that the underwater structure 4 itself receives from the waves.
The bolt hole 7 formed in this case no longer matches the anchor bolt 2.

As the underwater structure 4 becomes larger, it becomes difficult to stop this movement using wire chains or the like. Also base 6
The bolt hole 7 formed in the anchor bolt 2 is also extremely large in size with respect to the diameter of the anchor bolt 2, and it is impossible to take a tolerance from a structural standpoint. In view of the above situation, when setting the underwater structure 4 on the foundation 3 with the anchor bolts 2, it is necessary to install a huge vibration damping device or a strong guide. requires considerable construction costs. The present invention provides a method for installing underwater structures that can solve the above problems.

That is, in the present invention, an underwater structure is placed in a floating position via a buoyancy adjustment tank above a foundation having a large number of anchor bolts provided at the bottom of the water, and an underwater television camera attached to the underwater structure is used to monitor the underwater structure. While checking the relative position of the bolt hole formed in the structure and the anchor bolt, the circumferential position is corrected by the action of a jet nozzle attached to the underwater structure, and the horizontal position is corrected by the action of a jack device installed on the foundation side. The present invention provides a method for installing an underwater structure, in which the underwater structure is lowered when the bolt hole matches the anchor bolt, and a nut is tightened to be threaded onto the anchor bolt.

According to this construction method, the relative position of the anchor bolt and bolt hole is constantly checked using an underwater television camera, and subtle positional deviations in the horizontal and circumferential directions can be adjusted for installation, and the installation can be carried out using a conventional floating crane. Compared to the lowering method, installation is safer and more reliable. Hereinafter, one embodiment of the present invention will be described based on FIGS. 3 to 7. In FIGS. 3 and 4, reference numeral 10 denotes a foundation constructed on the bottom of the water 11, and a plurality of anchor bolts 12 are erected on the upper surface of the foundation at equal intervals in the circumferential direction. Jack stands 13 are erected from a plurality of locations (three locations in the embodiment) in the circumferential direction of the foundation 10 on the outside of these groups of anchor bolts 12, and a jack device 14 is attached to the inside of these jack stands 13. Reference numeral 15 denotes an underwater structure, the base 16 of which has a plurality of bolt holes 17 that can fit the anchor bolts 12.

A counterweight 18 is disposed on the base 16 within the underwater structure 15. Underwater television camera 1 is placed so as to face multiple (two) bolt holes 17 from above.
These underwater television cameras 19 are attached to the underwater structure 15 via brackets 20. A buoyancy adjustment tank 21 is provided at the intermediate outer circumference of the underwater structure 15, and this buoyancy adjustment tank 21 communicates with a compressor 22 provided on the underwater structure 15 via an air supply pipe 23. A jet nozzle 24 is disposed at the intermediate outer periphery of the underwater structure 15, and two sets of jet nozzles 24 are provided, each pair having two jet nozzles 24 facing in opposite directions. Each jet nozzle 24 communicates with a water pump 25 on the underwater structure 15 via a water supply pipe 26, and the water pump 25 has a water suction pipe 27. 28 indicates a control room, and 29 indicates a handrail.

As shown in FIGS. 3 and 4, an underwater television camera 19 and a buoyancy adjustment tank 2 are attached to the underwater structure 15 to be installed.
1, a compressor 22, a jet nozzle, a water pump 25, a control room 28, etc. are installed, and a jack is placed on the foundation 10. A jack device 14 is provided via a stand 13. Underwater structure 15 configured in this way
will be towed to the installation site as shown in Figure 3. By adjusting the amount of air in the buoyancy adjustment tank 21, the base 16 is lowered so as to be close to the group of anchor bolts 12 and to the side of the jack device 14, as shown in FIG. Next, two underwater TV cameras 1
While looking at the image 30 of 9, that is, while checking the relative position between the bolt hole 17 and the anchor bolt 12, correct the positional deviation in the circumferential direction by the jet jet action from the jet nozzle 24, and move the jack device 14 in and out. The bolt hole 17 is aligned with the anchor bolt 12 by correcting the horizontal positional deviation. All these operations are performed in the control room 28. anchor bolt 12
If the bolt holes 17 can be adjusted to a position where they can be installed, water is poured into the buoyancy adjustment tank 21 to sink the underwater structure 15, and the underwater structure 15 is installed on the foundation 10. Next, as shown in FIG. As shown in FIG. , compressor 22
, remove the jack device 14, etc. According to the method for installing underwater structures of the present invention described above, the relative positions of anchor bolts and bolt holes are constantly checked using an underwater television camera, and subtle positional misalignments in the horizontal and circumferential directions are adjusted before installation. This makes it possible to install underwater structures such as underwater observation towers more cheaply, safely, and reliably than with the conventional method of suspending them using floating cranes.

[Brief explanation of the drawing]

Figures 1 and 2 show conventional examples, with Figure 1 being a front view and Figure 2 being a front view.
The figure is a plan view of the foundation, Figures 3 to 7 show an embodiment of the present invention, Figure 3 is a partially cutaway front view when towing is completed, and Figure 4 is A-A in Figure 3. 5 is a partially cutaway front view when the position is corrected, FIG. 6 is a television image, and FIG. 7 is a partially cutaway front view when installed. 10...Foundation, 11...Bottom, 12.
... Anchor bolt, 14 ... Jack device, 15 ... Underwater structure, 16 ... Base, 17 ... Bolt hole, 19 ... ... Underwater television camera, 21 ... Buoyancy adjustment tank, 22.
...Compressor, 24...Jet nozzle, 281...Control room, 31.1
nut.

Claims (1)

[Claims] 1. An underwater structure is placed in a floating position via a buoyancy adjustment tank above a foundation with multiple anchor bolts installed on the bottom of the water, and an underwater television camera attached to the underwater structure is used to create a While checking the relative position of the bolt hole and the anchor bolt, the circumferential position is corrected by the action of a jet nozzle attached to the underwater structure, and the horizontal position is corrected by the action of a jack device installed on the foundation side. . An installation method for an underwater structure, in which the underwater structure is lowered when the bolt hole matches the anchor bolt, and a nut that is threaded onto the anchor bolt is fastened.