JPH084001A - Foundation pile drawer and undersea foundation pile drawing-out method - Google Patents

Abstract

PURPOSE:To sharply reduce the working time for drawing out a foundation pile by setting the chucking widths of the chuck of a vibrohammer and the chuck of a spline joint to almost the same width as that of a foundation pile. CONSTITUTION:A hydraulic chuck 7 is arranged at the bottom of the vibrohammer hung by a crane, and a spline joint 10 is coupled freely of mounting and removal between the chuck 7 and a sheath 3 or a foundation pile. Moreover, a first reducer 12 set to the same width as the foundation pile is coupled freely of mounting and removal, and a spline joint chuck 14 is coupled integrally with the bottom of the spline joint 10. Furthermore, a second reducer 16 being set to the same diameter as the foundation pile is coupled freely of mounting and removal with the top of the sheath pipe 3. By constituting a drawer this way, time chucking widths of the chuck 7 of the vibrohammer 6 and the chuck 14 of the spline joint 10 are set to roughly the same width as the foundation pile being drawn out. Accordingly, the vibrohammer 6, the sheath pipe 3, the spline joint 10, and the foundation pile can be coupled easily.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a foundation pile pulling-out apparatus suitable for pulling out a foundation pile buried in the sea, and a method for pulling out an undersea foundation pile.

[0002]

2. Description of the Related Art Construction work for pulling out and removing foundation piles for offshore structures (piers, crossing jetties, etc.) from the seabed
It is carried out by a crane work boat with a vibro hammer suspended. Here, since the foundation pile is buried deep in the seabed ground, by placing an extrapolation pipe having a larger diameter than the foundation pile on the seabed ground so that the foundation pile is inserted, and further pulling it out,
The friction between the foundation pile and the seabed is reduced, and then the foundation pile is pulled out. The foundation pile that can be pulled out has an outer diameter of 600 mm, 7
Steel pipes with different outer diameters such as 00 mm, 800 mm, 1200 mm, 1400 mm. In addition, the outer diameter of the outer cannula is 1200 m.
m, 1800 mm, etc. are used.

In the work of extracting the foundation pile using the extrapolation tube, first, the chucking width of the hydraulically driven chuck provided at the lower end of the vibro hammer is adjusted so that the chuck has a diameter substantially equal to that of the extrapolation tube. After that, the upper end of the extrapolation tube is gripped by hydraulic drive. Then, the extrapolation pipe is driven on the seabed ground by the vertical movement of the pair of eccentric weights of the vibro hammer suspended on the crane work ship, and the edges of the seabed ground and the steel pipe pile are cut. Further, the extrapolation tube is pulled out by the reverse operation. Then, re-adjust the chuck of the vibro hammer so that the chucking width is approximately the same diameter as the foundation pile, grasp the upper end of the foundation pile by hydraulically driving the chuck, and pull out the foundation pile with the vibro hammer that drives as it rises. , Collect and remove it at the specified position on the crane work boat.

When the upper end of the foundation pile is below the surface of the water, the work of pulling out and removing the foundation pile is performed by using a hired pile having a length of at least the water depth. Even when using this hired pile, the chuck of the vibro hammer is readjusted so that the chucking width is approximately the same diameter as the hired pile, and the work is performed after the upper end of the hired pile is gripped by the hydraulic drive of the chuck. Is done.

[0005]

However, the conventional work of pulling out the foundation pile takes a lot of time and has a problem in work safety. That is, when performing the extraction work of the foundation pile using the vibro hammer, the extrapolation pipe, and the hiring pile, as described above, the vibro hammer that grasps the upper ends of the extrapolation pipe, the hiring pile and the foundation pile having different outer diameters. The chucking width of the chuck must be adjusted, and if a large hammer is used and the chucking width is adjusted multiple times, it takes about 1 hour to complete the work of pulling out one foundation pile. A lot of time is spent on.

Further, since the chucking width adjusting work of the vibro hammer is usually performed just below the vibro hammer suspended by a crane at sea, it is inevitably a dangerous work for workers. The present invention has been made in view of the above circumstances, it is possible to drastically reduce the working time, and moreover, it is possible to safely perform the work of extracting the foundation pile and the method of extracting the undersea foundation pile. The purpose is to provide.

[0007]

According to a first aspect of the present invention, there is provided a device for extracting a foundation pile, comprising: a vibro hammer suspended from a crane; and a foundation pile arranged at the lower end of the vibro hammer and pulled out. And a hydraulically driven chuck part capable of gripping the upper end part of the outer pipe having a diameter larger than that of the foundation pile, and a detachable connection between the chuck part and the outer pipe or the foundation pile. In a device for pulling out a foundation pile including a pile, a first reducer having the same diameter as the foundation pile to be pulled out is detachably connected to the upper end of the hiring pile, and the lower end of the hiring pile is connected to the first reducer. A second pile reducer having the same diameter as that of the foundation pile is detachably coupled to the upper end of the extrapolation tube while the labor pile chuck for gripping the extrapolation tube or the foundation pile is integrally connected. A device characterized by Rukoto.

According to a second aspect of the present invention, there is provided a method for pulling out an undersea foundation pile, comprising a vibro hammer hung on a crane work boat with a hydraulically driven chuck portion at the lower end and a second at the upper end. Employment pile in which an reducer is detachably connected to an outer insertion tube, a first reducer is detachably connected to an upper end portion, and an outer insertion tube or a chuck for gripping a foundation pile is integrally connected to a lower end portion. In the method of extracting an undersea foundation pile for extracting a foundation pile buried in the seabed by using and, in order to correspond to a plurality of types of foundation piles to be extracted, a plurality of types of first and second different diameters are used.
The reducer is prepared, the reducer of the same diameter as the foundation pile to be pulled out at this time is detachably connected to the hiring pile and the extrapolation tube, respectively, and the chucking width of the chuck part of the vibro hammer and the chuck of the hiring pile is The method is characterized in that it is set to be approximately the same as the outer diameter width of the foundation pile to be pulled out at the present moment.

[0009]

According to the apparatus for extracting a foundation pile according to claim 1 of the present invention, the chucking width of the chuck portion of the vibro hammer and the chuck of the employed pile is set to a width substantially the same as that of the foundation pile to be extracted. Just put it, vibro hammer,
The time required for connecting extrapolation tubes, stakes and foundation piles will be greatly reduced. As a result, in the present invention, as compared with the conventional extraction work of the foundation pile, the time until the extraction of one foundation pile is completed is significantly shortened, and the work efficiency is significantly improved.

Further, according to the method for extracting an undersea foundation pile according to claim 2, even if the outer diameter of the foundation pile to be extracted changes, a plurality of types of the first and second reducers are appropriately selected. It is only necessary to adjust the chucking width of the chuck part of the vibro hammer and the chuck of the hired pile once by connecting it to the hired pile and the extraneous pipe. It can be greatly shortened. Therefore, the time required to complete the pulling out of one foundation pile is significantly shortened, and the work efficiency is significantly improved.

Further, since it is unnecessary to adjust the chucking width directly below the vibro hammer, the work can be carried out safely.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1 and 2 show a foundation pile extracting device 1 used in the present invention.
The outer diameter dimension of the foundation pile 2 to be pulled out is T ₁ , and the outer diameter dimension of the outer tube 3 to be used is T ₂ (T ₁ <T ₂ ).

This device 1 includes an engaging portion 4 that engages with a hook portion at the tip of a crane mounted on a crane work boat, and a vibro hammer 6 connected to the engaging portion 4 via a shock absorber 5. The chuck 7 of the vibro hammer 6 has an upper end that is gripped and a lower end that is roughly configured with a stake 10 that can grip the foundation pile 2 or the extrapolation tube 3.

That is, the chuck of the vibro hammer 6 is
As shown in FIG. 1, the hook portion 7 includes a pair of claw members 7a, 7a.
a and the pair of claw members 7a, 7 by the hydraulic pressure supply control.
Drive to move a so that they are separated from each other or approaching each other
And part 7b. And a pair of claw members 7
a and 7b are a plurality of connecting these and the drive unit 7b.
By removing the bolts 7c ... of the
After changing to close, bolt 7c ... again.
By attaching it, the chucking width H ₁To key
It is possible to adjust. Here, the chucking of the present embodiment
Width H₁Can grip a steel pipe with the same diameter as the foundation pile 2
Width, ie T₁Slightly larger chucking width
H₁Has been adjusted to.

Further, the employment pile 10 is composed of two employment piles connected to each other in the longitudinal direction, and a plurality of reinforcing plate members 10a are provided on the outer periphery in the axial direction at predetermined intervals.
... is stuck. A flange 10b is fixed to the upper end portion of the hired pile 10 and a hired pile reducer (first reducer) 12 is provided by integrally joining the flange 12a abutting the flange 10b to each other by bolt joining. There is.

The employed pile reducer 12 has a plurality of flanges 12a, a cylindrical member 12b integrally fixed to the flange 12a, and a plurality of members fixed to the lower portion of the outer periphery of the member 12b at a predetermined interval. .. and the outer diameter of the gripped member 12b is set to the same dimension T ₁ as the outer diameter of the foundation pile 2. Here, the hired pile reducer 12 is a plurality of types of outer diameters of the foundation pile to be pulled out (for example, 600 mm, 700 mm,
A plurality of types of gripped members 12b are prepared so as to correspond to 800 mm, 1200 mm, 1400 mm, etc.).

At the lower end of the hired pile 10, a foundation pile 2 is provided.
And a hired pile chuck 1 capable of gripping the extrapolation tube 3
4 are provided integrally. This hired pile chuck 14
Is a pair of claw members 1 for gripping a steel pipe, as shown in FIG.
4a and 14a, and a drive unit 14b that moves the pair of claw members 14a and 14a so as to move away from or approach each other by hydraulic pressure supply control. And
The pair of claw members 14a, 14a are provided with these and the drive unit 14b.
After the plurality of bolts 14c ... Which are connected to each other are detached and the positions of the bolts 14c ... Are changed so as to be further apart or closer to each other, the bolts 14c ... are attached again to adjust the chucking width H ₂ to a predetermined value. It is possible. Here, the chucking width H ₂ of this embodiment is adjusted to a width capable of gripping a steel pipe having the same diameter as the foundation pile 2, that is, a chucking width H ₂ slightly larger than T ₁ .

On the other hand, a flange 3a is fixed to the upper end of the outer insertion tube 3 whose outer diameter is set to T ₂ , and a flange 16a which abuts this flange 3a is bolted to each other to be integrated. The extrapolated intubation reducer (second reducer) 16 is provided. The extrapolation tube reducer 16 includes the flange 16a and a cylindrical member 1 to be grasped, which is integrally fixed to the flange 16a.
6b and a plurality of brackets 16c fixed to the lower part of the outer periphery of the gripped member 16b at a predetermined interval, and the outer diameter of the gripped member 16b is the same as the outer diameter of the foundation pile 2. It is set to T ₁ . Here, the external intubation reducer 16 has a plurality of types of outer diameters of the foundation pile to be pulled out (for example, 600 mm, 700 mm, 800 mm, 1200 m).
m, 1400 mm, etc.), a plurality of types of gripped members 16b are prepared. Although not shown,
A supply hose of the jet jet flow supply device is connected to the upper portion of the extrapolation tube 3 so that the jet jet flow is jetted downward from the lower end opening of the extrapolation tube 3.

Next, the foundation pile extracting device 1 having the above-mentioned structure
A method for extracting an undersea foundation pile using the present invention will be described with reference to FIGS. 3 to 10. First, the outer insertion tube 3 is placed by performing the following operations. As shown in FIG. 3, while lowering the extrapolation tube 3 suspended by the auxiliary winding wire 20, the lower end of the extrapolation tube 3 is directly above the foundation pile 2 buried in the seabed 21 by the guidance of the diver. Located in.

As shown in FIG. 4, the outer pipe 3 is installed by a pile receiving stand 23 arranged a predetermined distance above the sea surface 22.
While holding the outer insertion pipe 3, the injection force of the jet jet ejected from the lower end of the outer insertion pipe 3 and the own weight of the outer insertion pipe 3 allow the insertion of the outer insertion pipe 3 at the position of the seabed 21 on the outer periphery of the foundation pile 2 ( Place some of them.) Then, the vibro hammer 6 suspended by the main winding wire 24 is connected to the upper end portion of the outer insertion tube 3.

At this time, the chuck portion 7 of the vibro hammer 6 is hung down toward the extrapolation tube reducer 16 provided at the upper end of the extrapolation tube 3 to form a pair of claw members 7a, 7a.
The gripped member 16b is positioned between a and a. Then, the gripped member 16b is gripped by moving the pair of claw members 7a, 7a in a direction in which they approach each other by hydraulic pressure supply control, and the extrapolation tube 3 is connected to the vibro hammer 6.

Then, by driving the vibro hammer 6 while descending, the outer insertion tube 3 is driven into the seabed ground 3 until the upper end portion thereof is positioned on the pile receiving base 23. As shown in FIG. 5, the hired pile 10 is connected between the vibro hammer 6 and the outer insertion tube 3 with the upper end portion of the outer insertion tube 3 being supported by the pile receiving stand 23. At this time, the pair of claw members 7a, 7a are moved in a direction in which they are separated from each other by hydraulic control to release the connection state between the chuck portion 7 of the vibro hammer 6 and the outer insertion tube 3. And the main winding wire 2
After moving the vibro hammer 6 to the crane work boat by the operation of 4, the pair of claw members 7a of the chuck portion 7 thereof,
The hired pile reducer 12 of the hired pile 10 is made to correspond to 7a. Then, by the hydraulic pressure supply control, the pair of claw members 7a,
By moving 7a toward each other, the gripped member 12b of the employed pile reducer 12 is grasped and the vibro hammer 6 and the employed pile 10 are connected.

Then, again, by operating the main winding wire 24, the vibro hammer 6 and the hired pile 10 are moved to just above the outer insertion tube 3, and thereafter the hired pile 10 and the hired pile 3 are connected. In that case, the hiring pile chuck 14 of the hiring pile 10,
The extracorporeal tube 3 hangs down toward the extracorporeal tube reducer 16, and a grasped member 16b is provided between the pair of claw members 14a, 14a.
Position. Then, the gripped member 16b is gripped by moving the pair of claw members 14a, 14a in a direction in which they approach each other by hydraulic pressure supply control, and the employed pile 10 and the extrapolation tube 3 are connected.

As shown in FIG. 6, the outer pipe 3 is driven to the depth where the foundation pile 2 is embedded by the vibro hammer 6 driven while descending and the jet force of the jet jet from the lower end of the outer pipe 3. The foundation pile 2 is cut off from the seabed 21. Next, the operation from is performed in reverse, so that the extracorporeal tube 3 is pulled out.

That is, by the reverse operation of
Pull out the extracorporeal tube 3 from 2. Then, the employment pile 10 is removed from between the vibro hammer 6 and the extrapolation tube 3 by the reverse operation of. Then, the reverse operation of
Is further pulled out from the seabed 33. And
The outer tube 3 is collected on the crane work ship by the reverse operation of the above.

Next, the foundation pile 2 is pulled out by performing the following operations. On the crane work boat, the hired pile 10 is connected to the chuck portion 7 of the vibro hammer 6. At this time, the pair of claw members 7a and 7b are brought close to the employed pile reducer 12 of the employed pile 10, and the employed pile 10 is connected by grasping the grasped member 12b by the hydraulic pressure supply control of the drive unit 7b.

Then, as shown in FIG. 7, the main winding wire 2
By the operation of 4, the vibro hammer 6 and the hired pile 10
After guiding the diver and moving it directly above the foundation pile 2, the employed pile 10 and the foundation pile 2 are connected. In that case,
The hiring pile chuck 14 of the hiring pile 10 is hung toward the upper end of the foundation pile 2 to position the upper end of the foundation pile 2 between the pair of claw members 14a, 14a. Then, by moving the pair of claw members 14a, 14a toward each other by hydraulic pressure supply control, the upper end of the foundation pile 2 is gripped, and the employed pile 10 and the foundation pile 2 are connected.

A foundation pile 2 whose edge with the seabed 21 is cut by a vibro hammer 6 driven while rising
Is easily pulled out. Then, when the upper end of the foundation pile 2 rises to a position substantially the same as the pile receiving base 23, the raising and driving of the vibro hammer 6 are stopped. And FIG.
As shown in, the hired pile 10 is removed while the upper end of the foundation pile 2 is supported by the pile receiving stand 23.

At that time, the auxiliary winding wire 20 is attached to the hired pile 10.
To connect. Then, the pair of claw members 14 is hydraulically controlled.
a, 14a are moved in a direction in which they are separated from each other, and the foundation pile 2
And the connection state of the hired pile chuck 14 is released. Also, the pair of claw members 7a, 7a are moved in a direction in which they are separated from each other by hydraulic control, and the chuck portion 7 of the vibro hammer 6 is moved.
Then, the connection state of the hired pile reducer 12 of the hired pile 10 is released. Then, by suspending the auxiliary winding wire 20,
Collect the hired stake 10 on the crane work boat.

Then, as shown in FIG. 9, the chuck portion 7 of the vibro hammer 6 hangs down toward the upper end portion of the foundation pile 2, and the foundation pile 2 is interposed between the pair of claw members 7a and 7a.
Position the upper end of the. Then, the pair of claw members 7a, 7a are moved in a direction in which they approach each other by hydraulic pressure supply control to grip the upper end portion and connect the foundation pile 2 to the vibro hammer 6.

Then, as the vibro hammer 6 is driven while rising, the foundation pile 2 is further pulled out from the seabed 21. As shown in FIG. 10, when the foundation pile 2 being pulled out by the vibro hammer 6 is completely pulled out from the seabed 21, the connection state between the foundation pile 2 and the vibro hammer 6 is changed by the same procedure as the above-mentioned operation. It will be canceled.

Then, the extracted foundation pile 2 is collected and removed by the crane work ship. In this way, by performing the operations from to and from, the foundation pile 2
Tube 3 to reduce friction when pulling out
The placing work and the pulling out work of the base pile 2 are performed, and the work of collecting the foundation pile 2 is performed by performing the operation from.

Therefore, according to the method for pulling out the subsea foundation pile of this embodiment, the chuck portion of the vibro hammer 6 in the operation shown in FIG. 4 (including the reverse operation) and the operation shown in FIG. 7 extrapolation tube 3 or foundation pile 2
The upper end of the outer tube is gripped, but the chuck portion 7 of the vibro hammer 6 of this embodiment is set to a chucking width H ₁ capable of gripping the foundation pile 2 and the upper end of the extrapolation tube 3 is held. Since an outer insertion tube reducer 16 set to the same size T ₁ as the outer diameter of the foundation pile 2 is detachably connected to the base pile 2, the vibro hammer 6 is used when chucking the foundation pile 2 or the outer insertion tube 3. This eliminates the need for the chucking adjustment work, and can significantly reduce the connecting work time of the outer insertion tube 3 or the foundation pile 2 to the vibro hammer 6 as compared with the conventional extraction work of the foundation pile.

In the operation shown in FIG. 5 (including the reverse operation), the operation shown in FIG. 7, the operation shown in FIG. 8, etc., the vibro hammer 6, The outer pipe 3 or the foundation pile 2 is connected, but the employed pile reducer 12 set to the same dimension T ₁ as the outer diameter of the foundation pile 2 is detachably connected to the upper end of the employed pile 10 of this embodiment. In addition, since the lower end of the employment pile 10 is integrally provided with the employment pile chuck 14 having a chucking width H ₂ capable of gripping the foundation pile 2,
The chucking adjustment work of the chuck part 7 of the vibro hammer 6 and the hired pile chuck 14 of the hired pile 10 becomes unnecessary, and compared with the conventional extraction work of the foundation pile, the hired pile 1
As compared with 0, the connecting work time of the vibro hammer 6, the extrapolation tube 3 or the foundation pile 2 can be significantly shortened.

Further, even if the outer diameter of the foundation pile 2 to be pulled out is variously changed (for example, the outer diameter is changed from 600 mm to 800 mm), a plurality of types of the employed pile reducer 12 and the extrapolation tube reducer 16 are prepared. 10 hire each
Also, by simply performing bolt adjustment on the outer insertion tube 3 and adjusting the chucking width of the vibro hammer 6 and the employed pile chuck 14 once, it is possible to perform work in a short time by the above operation.

Therefore, in the present embodiment, the chucking width adjustment is not necessary as compared with the conventional one, so that the time until the pulling out of one foundation pile 2 is completed is greatly shortened and the work efficiency is improved. Extremely improved. Further, in the present embodiment, the work of adjusting the chucking width of the vibro hammer directly below the vibro hammer, which is conventionally performed, is unnecessary, so that the work can be performed safely.

[0037]

As described above, in the foundation pile pulling-out device according to the first aspect of the present invention, the chuck portion of the vibro hammer and the chucking width of the chuck of the hired pile are
By simply setting the width to be approximately the same as the width of the foundation pile to be pulled out, the connecting work time of the vibro hammer, the extrapolation tube, the hired pile and the foundation pile can be significantly reduced. As a result, in the present invention, as compared with the conventional extraction work of the foundation pile, the time until the extraction of one foundation pile is completed is significantly shortened, and the work efficiency is significantly improved.

According to the method for extracting an undersea foundation pile according to claim 2, even if the outer diameter of the foundation pile to be extracted is changed, a plurality of types of first and second reducers are appropriately selected. It is only necessary to adjust the chucking width of the chuck part of the vibro hammer and the chuck of the hired pile once by connecting it to the hired pile and the extraneous pipe. It can be shortened significantly. Therefore, the time required to complete the pulling out of one foundation pile is significantly shortened, and the work efficiency is significantly improved.

Further, since the work for adjusting the chucking width directly below the vibro hammer is not necessary, the work can be performed safely.

[Brief description of drawings]

FIG. 1 is a front view showing a connected state of a vibro hammer, a stake and an extrapolation tube according to the present invention.

FIG. 2 is a side view showing a connected state of a vibro hammer, a stake and an extrapolation tube according to the present invention.

FIG. 3 is a view showing an operation of disposing an outer insertion tube supported by a supplementary winding wire according to the present invention.

FIG. 4 is a view showing a state of inserting an extrapolation tube into the seabed according to the present invention.

FIG. 5 is a view showing a connection state of the hiring pile between the vibro hammer and the extrapolation tube according to the present invention.

[Fig. 6] Fig. 6 is a diagram showing a state of placing an extrapolation pipe on the seabed according to the present invention.

FIG. 7 is a view showing a connection state of the hired pile between the vibro hammer and the foundation pile according to the present invention.

FIG. 8 is a diagram showing the release of the connection state between the foundation pile and the employed pile according to the present invention.

FIG. 9 is a diagram showing the release of the connection state between the foundation pile and the vibro hammer according to the present invention.

FIG. 10 is a diagram showing the completion of pulling out the foundation pile according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Extraction device 2 Foundation pile 3 Extrapolation pipe 6 Vibro hammer 7 Chuck part 7a Claw member 7b Drive part 10 Employed pile 12 Employed pile reducer (1st reducer) 12a Flange 12b Grasped member 14 Employed pile chuck (chuck) 14a Claw member 14b Drive part 16 Extrapolation tube reducer (2nd reducer) 16a Flange 16b Gripping member 20 Auxiliary wire 21 Submarine ground 22 Sea surface 24 Main winding wire H ₁ Chucking width of chuck part of vibro hammer H ₂ Chuck of hired pile Chucking width T ₁ Foundation pile outer diameter

Front page continuation (72) Inventor Takaka Okunuki 1-25-1 Nishishinjuku, Shinjuku-ku, Tokyo Taisei Construction Co., Ltd. (72) Inventor Shinichi Tazaki 1-25-1 Nishishinjuku, Shinjuku-ku, Tokyo Taisei Construction Within the corporation

Claims (2)

[Claims] 1. A vibro hammer suspended from a crane, and an upper end portion of a foundation pile which is disposed at the lower end portion of the vibro hammer and is pulled out and an upper end portion of an extrapolation pipe having a diameter larger than that of the foundation pile. In a device for pulling out a foundation pile, which is equipped with a hydraulically driven chuck part capable of being operated, and a employment pile detachably connected between the chuck part and the extrapolation tube or the foundation pile, an upper end portion of the employment pile. , The first reducer set to the same diameter as the foundation pile to be pulled out is detachably connected, and the outer pile or the retaining pile chuck that holds the foundation pile is integrally connected to the lower end of the retaining pile. At the same time, a second pile reducer having the same diameter as that of the foundation pile is detachably connected to the upper end portion of the extrapolation tube. 2. A vibro hammer hung on a crane work boat with a hydraulically driven chuck portion at the lower end,
An outer insertion tube to which a second reducer is detachably connected to the upper end portion, and a first reducer to be detachably connected to the upper end portion, and a chuck for gripping the outer insertion tube or the foundation pile are integrally formed at the lower end portion. Using the hired piles that are connected,
In the method of pulling out the foundation piles buried in the seabed, the first and second reducers of different diameters are prepared to correspond to the different types of foundation piles to be pulled out. The reducer having the same diameter as the foundation pile to be pulled out in is detachably connected to the hiring pile and the extrapolation pipe, respectively, and the chucking width of the chuck portion of the vibro hammer and the chuck of the hiring pile is at the present time of the foundation pile to be pulled out. A method for pulling out an undersea foundation pile, characterized in that it is set to be approximately the same as the outer diameter width.