JP2839838B2 - Pulling device for foundation pile and method of pulling underwater foundation pile - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and a method for extracting a foundation pile suitable for performing an operation of extracting a foundation pile buried underwater.

[0002]

2. Description of the Related Art The work of pulling out foundation piles of offshore structures (piers, crossover piers, etc.) from the submarine ground and removing them is usually carried out.
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 driving an extratubular pipe larger in diameter than the foundation pile into the seabed ground so that the foundation pile is inserted, and further pulling out,
Friction between the foundation pile and the seabed has been reduced, and then the foundation pile has been pulled out. The foundation pile to be pulled out has an outer diameter of 600 mm and a diameter of 7 mm.
Steel pipes with different outer diameters such as 00 mm, 800 mm, 1200 mm, and 1400 mm. In addition, the outer diameter of the intubation is 1200m
m, 1800 mm, etc. are used.

[0003] Then, in the work of pulling out the foundation pile using the extracorporeal tube, first, the chucking width of the hydraulically driven chuck provided at the lower end of the vibratory hammer is adjusted so that the chuck has a diameter substantially equal to that of the extracorporeal tube. After that, the upper end of the extracorporeal tube is gripped by hydraulic drive. Then, the outer tube is driven into the seabed ground by the vertical rotation of the pair of eccentric weights of the vibratory hammer suspended from the crane work boat, and the edges of the seabed ground and the steel pipe pile are cut. Further, the extracorporeal tube is withdrawn by the reverse operation.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 hydraulic drive of the chuck, and pull out the foundation pile with the vibratory hammer that is driven as it rises , And collect and remove it at a predetermined position on the crane work boat.

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

[0005]

However, the conventional operation of pulling out a foundation pile consumes a lot of time and has problems in terms of work safety. That is, when performing the work of pulling out the foundation pile using the vibratory hammer, the extracorporeal pipe and the hiring pile, as described above, the vibratory hammer gripping the upper end of the extracorporeal pipe, the hiring pile and the basic pile having different outer diameters, as described above. The chucking width of the chuck must be adjusted. If the chucking width adjustment, which takes about one hour using a large hammer, is performed multiple times, the work time required to complete the pulling out of one foundation pile is completed. A great deal of time is spent.

[0006] In addition, since the work of adjusting the chucking width of the vibro-hammer is usually performed immediately below the vibro-hammer suspended from a marine crane, the work is inevitably dangerous. The present invention has been made in view of the above circumstances, and it is possible to greatly reduce the working time, and furthermore, it is possible to safely perform a work and a method of pulling out a foundation pile and a method of pulling out an underwater foundation pile. The purpose is to provide.

[0007]

According to a first aspect of the present invention, there is provided an apparatus for removing a foundation pile, comprising: a vibratory hammer suspended from a crane; and a foundation pile disposed at a lower end of the vibratory hammer and pulled out. And a hydraulically driven chuck capable of gripping the upper end of the extracorporeal tube having a diameter larger than that of the foundation pile, and a releasably connected between the chuck and the extracorporeal tube or the foundation pile. In a device for extracting a foundation pile comprising a pile, a first reducer having the same diameter as the foundation pile to be withdrawn is detachably connected to an upper end of the hire pile, and is connected to a lower end of the hire pile. A hiring pile chuck for gripping an extracorporeal pipe or a foundation pile is integrally connected, and a second reducer set to the same diameter as the basic pile is detachably connected to the upper end of the extracorporeal pipe. A device characterized by Rukoto.

According to a second aspect of the present invention, there is provided a method of pulling out an underwater foundation pile, wherein a hydraulically operated chuck is disposed at a lower end and a vibro hammer suspended from a crane work boat, and a second is disposed at an upper end. A hiring stake in which a reducer is detachably connected to an outer tube and a first reducer is detachably connected to an upper end of the tube and a chuck for gripping the outer tube or the base pile is integrally connected to a lower end of the tube. In the method of pulling out a submerged foundation pile buried in the seabed ground by using the method, a plurality of types of first and second types having different diameters are used so as to correspond to a plurality of types of foundation piles to be extracted.
A reducer is prepared, and a reducer having the same diameter as the foundation pile to be withdrawn at the present time is detachably connected to the hiring pile and the extracorporeal tube, respectively, and the chucking width of the chuck portion of the vibro hammer and the chuck of the hiring pile is reduced. The method is characterized in that it is set to be substantially the same as the outer diameter width of the foundation pile to be pulled out at the present time.

[0009]

According to the first aspect of the present invention, the chucking width of the chuck of the vibrohammer and the chuck of the hiring pile are set to a width substantially equal to the diameter of the foundation pile to be withdrawn. Just put, vibro hammer,
The time required for connecting the intubation, hiring piles and foundation piles is greatly reduced. As a result, in the present invention, the time required to complete the pulling out of one foundation pile is greatly reduced and the work efficiency is significantly improved, as compared with the conventional foundation pile pulling-out operation.

Further, according to the method for extracting a submarine foundation pile according to the second aspect, even if the outer diameter of the foundation pile to be extracted changes, a plurality of types of first and second reducers are appropriately selected. It is only necessary to adjust the chucking width of the chuck of the vibro hammer and the hiring pile once by connecting it to the hiring pile and the extra intubation. It can be greatly reduced. Therefore, the time required to complete the pulling out of one foundation pile is greatly reduced, and the work efficiency is greatly improved.

Further, since the operation of adjusting the chucking width immediately below the vibro-hammer is not required, the operation can be performed safely.

[0012]

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

The apparatus 1 includes an engaging portion 4 which engages with a hook portion of a tip end of a crane mounted on a crane work boat, a vibratory hammer 6 which is connected to the engaging portion 4 via a shock absorber 5. An upper end is gripped by the chuck portion 7 of the vibratory hammer 6, and a lower end is roughly constituted by a hiring pile 10 capable of gripping the foundation pile 2 or the extracorporeal tube 3.

That is, the vibrator hammer 6
As shown in FIG. 1, the hook portion 7 includes a pair of claw members 7 a and 7.
a and the pair of claw members 7a, 7
drive for moving a so as to move away from or approach each other
And a portion 7b. And a pair of claw members 7
a and 7b are a plurality of connecting the driving unit 7b and these.
Bolts 7c are attached and detached from each other,
Or closer, and then tighten the bolts 7c again.
By mounting, a predetermined chucking width H ₁Tones
It is possible to adjust. Here, the chucking of the present embodiment
Width H₁Can grip steel pipe of the same diameter as foundation pile 2
Width, ie, T₁Slightly larger chucking width
H₁Has been adjusted.

The hiring stake 10 is composed of two hiring stakes 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 fixed. A flange 10b is fixed to an upper end portion of the hiring pile 10, and a hiring pile reducer (first reducer) 12 is provided by integrally connecting the flanges 12a abutting on the flange 10b by bolting. I have.

The hiring pile reducer 12 includes a flange 12a, a cylindrical gripping member 12b integrally fixed to the flange 12a, and a plurality of gripping members 12b fixed to the lower outer periphery of the gripping member 12b at predetermined intervals. Like the bracket 12c ... are composed of capital, the outer diameter of the gripping member 12b is set to an outer diameter of the same dimension T ₁ of the foundation pile 2. Here, the hire pile reducer 12 has a plurality of types of outer diameters (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, and the like.

At the lower end of the hiring pile 10, a foundation pile 2 is provided.
And hiring pile chuck 1 capable of gripping extracorporeal tube 3
4 are provided integrally. This hiring pile chuck 14
Is a pair of claw members 1 for holding a steel pipe, as shown in FIG.
4a, 14a, and a driving unit 14b for moving the pair of claw members 14a, 14a apart or approach each other by controlling the supply of hydraulic pressure. And
The pair of claw members 14a, 14a
DOO linked to have a plurality of bolts 14c ... desorbed further away from each other in the position of, or after changing to approach, by mounting again bolt 14c ..., adjusted to a predetermined chucking width H ₂ It is possible. Here, the chucking width of H ₂ present embodiment, which can be the foundation pile 2 to grip the steel pipe having the same diameter width, i.e., is adjusted to a slightly larger chucking width H ₂ than T _1.

Meanwhile, the upper end of the outer cannula 3 which outer diameter is set to T _2, together with the flange 3a is fixed, integral with this flange 3a and abuts the flange 16a and bolted together The provided extracorporeal intubation reducer (second reducer) 16 is provided. The extracorporeal tube reducer 16 includes the flange 16a and a cylindrical gripping member 1 integrally fixed to the flange 16a.
6b, and a plurality of brackets 16c fixed to the lower part of the outer periphery of the grasped member 16b at predetermined intervals, and the outer diameter of the grasped member 16b is the same as the outer diameter of the foundation pile 2. It is set to T _1. Here, the extratubular reducer 16 has a plurality of types of outer diameters (for example, 600 mm, 700 mm, 800 mm, 1200 m) of the foundation pile to be pulled out.
m, 1400 mm, etc.), a plurality of types of graspable members 16b are prepared. Although not shown,
A supply hose of a jet jet supply device is connected to an upper portion of the outer tube 3 such that a jet jet is jetted downward from an opening at a lower end of the outer tube 3.

Next, a device 1 for pulling out a foundation pile having the above configuration.
The method of pulling out the underwater foundation pile of the present invention using the method will be described with reference to FIGS. First, the extratubular tube 3 is cast by performing the following operations. As shown in FIG. 3, the lower end of the extracorporeal tube 3 is directly above the foundation pile 2 buried in the submarine ground 21 by the guidance of a diver while the extracorporeal tube 3 suspended by the auxiliary wire 20 is hung down. Position.

As shown in FIG. 4, the extracorporeal tube 3 is provided by a pile receiving stand 23 disposed a predetermined distance above the sea surface 22.
The root of the extracorporeal tube 3 is inserted into the seafloor ground 21 on the outer periphery of the foundation pile 2 by the jet force of the jet jet ejected from the lower end of the extracorporeal tube 3 and the weight of the extracorporeal tube 3 while maintaining Part is to be cast.) Then, the vibratory hammer 6 suspended by the main winding wire 24 is connected to the upper end of the outer tube 3.

At this time, the chuck portion 7 of the vibratory hammer 6 hangs down toward the extracorporeal tube reducer 16 provided at the upper end of the extracorporeal tube 3, and a pair of claw members 7a, 7
The member to be grasped 16b is located between the positions a. Then, by moving the pair of claw members 7a, 7a in a direction approaching each other by hydraulic supply control, the grasped member 16b is grasped, and the extracorporeal tube 3 is connected to the vibratory hammer 6.

When the vibratory hammer 6 is driven while descending, the outer tube 3 is driven into the submarine ground 3 until the upper end is located on the pile receiving stand 23. As shown in FIG. 5, the hiring pile 10 is connected between the vibrohammer 6 and the outer tube 3 with the upper end of the outer tube 3 supported by the pile receiving stand 23. At this time, the pair of claw members 7a, 7a are moved in a direction away from each other by hydraulic control to release the connection state between the chuck portion 7 of the vibratory hammer 6 and the outer tube 3. And the main winding wire 2
After moving the vibro hammer 6 to the crane work boat by the operation of 4, a pair of claw members 7a of the chuck portion 7 thereof,
The hiring pile reducer 12 of the hiring pile 10 is made to correspond between 7a. The pair of claw members 7a are controlled by the hydraulic pressure supply control.
By moving the members 7a in the direction in which they are close to each other, the gripped member 12b of the hire pile reducer 12 is gripped, and the vibro hammer 6 and the hire pile 10 are connected.

Then, by operating the main winding wire 24 again, the vibro hammer 6 and the hiring stake 10 are moved to just above the extracorporeal tube 3, and thereafter the hiring stake 10 and the extracorporeal tube 3 are connected. In that case, the hiring pile chuck 14 of the hiring pile 10
The hanging member 16b of the intubation 3 is drooped toward the intubation reducer 16, and the grasped member 16b is sandwiched between the pair of claw members 14a, 14a.
Position. Then, by moving the pair of claw members 14a, 14a in a direction approaching each other by hydraulic supply control, the grasped member 16b is grasped, and the hiring pile 10 and the extracorporeal tube 3 are connected.

As shown in FIG. 6, the outer tube 3 is driven to the depth where the foundation pile 2 is buried by the vibratory hammer 6 that is driven while descending and the jet force of the jet jet from the lower end of the outer tube 3. Then, the edge of the foundation pile 2 with the seabed ground 21 is cut off. Next, the operation of pulling out the extracorporeal tube 3 is performed by performing the above operation in reverse.

That is, the reverse operation of
Pull out the extracorporeal tube 3 from 2. Then, the hiring pile 10 is removed from between the vibrohammer 6 and the extratubular tube 3 by the reverse operation. Then, the extracorporeal tube 3
Is further pulled out from the seabed ground 33. And
The extrapolated tube 3 is recovered on the crane work boat by the reverse operation of the above.

Next, the following operation is performed to pull out the foundation pile 2. 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 approach the hiring pile reducer 12 of the hiring pile 10, and the hiring pile 10 is connected by gripping the gripped member 12b by hydraulic control of the driving unit 7b.

Then, as shown in FIG.
By the operation of 4, the vibro hammer 6 and the hiring stake 10 are
After the diver is guided and moved just above the foundation pile 2, the hire pile 10 and the foundation pile 2 are connected. In that case,
The hiring pile chuck 14 of the hiring pile 10 hangs down toward the upper end of the foundation pile 2, and the upper end of the foundation pile 2 is positioned between the pair of claw members 14a, 14a. Then, by moving the pair of claw members 14a, 14a in a direction approaching each other by hydraulic supply control, the upper end of the foundation pile 2 is grasped, and the hiring pile 10 and the foundation pile 2 are connected.

The foundation pile 2 whose edge with the seabed ground 21 has been cut off by the vibratory hammer 6 driven while rising
Are easily pulled out. Then, when the upper end of the foundation pile 2 rises to substantially the same position as the pile receiving stand 23, the lifting and driving of the vibro hammer 6 are stopped. And FIG.
As shown in (1), the hire pile 10 is removed while the upper end of the foundation pile 2 is supported by the pile receiving stand 23.

At this time, the auxiliary wire 20 is attached to the hiring pile 10.
Concatenate. The pair of claw members 14 are controlled by hydraulic pressure.
a, 14a are moved in a direction away from each other to
The connection state of the hiring pile chuck 14 is released. Further, the pair of claw members 7a, 7a are moved in a direction away from each other by hydraulic control, and the chuck portion 7 of the vibro hammer 6 is moved.
Then, the connection state between the hiring pile 10 and the hiring pile reducer 12 is released. And, by hanging the auxiliary winding wire 20,
The hired pile 10 is collected on a crane work boat.

Then, as shown in FIG. 9, the chuck portion 7 of the vibratory hammer 6 hangs down toward the upper end of the foundation pile 2, and the foundation pile 2 is placed between the pair of claw members 7a, 7a.
Position the upper end of the. Then, by moving the pair of claw members 7a, 7a in a direction approaching each other by the hydraulic pressure supply control, the upper end portion is grasped and the foundation pile 2 is connected to the vibratory hammer 6.

Then, the foundation pile 2 is further pulled out from the submarine ground 21 by driving the vibratory hammer 6 while rising. As shown in FIG. 10, when the foundation pile 2 pulled out by the vibratory hammer 6 is completely pulled out from the submarine ground 21, the connection state between the foundation pile 2 and the vibratory hammer 6 is changed by the same procedure as described above. It is released.

Then, the pulled out foundation pile 2 is collected and removed by a crane work boat. In this way, by performing the operation from and the operation from the reverse, the foundation pile 2
Extracorporeal tube 3 to reduce friction when pulling out
Is carried out and the work of pulling out the base pile 2 is carried out, and the operation of collecting the foundation pile 2 is carried out by further performing the operation from the above.

Therefore, according to the method of pulling out the underwater foundation pile of the present embodiment, the chuck portion of the vibro hammer 6 can be used in the operation shown in FIG. 4 (including the reverse operation) and the operation shown in FIG. 7 is extrapolated tube 3 or foundation pile 2
While the upper end of the grip, chuck portion 7 of the vibro-hammer -6 of this embodiment, with are set to the chucking width H ₁ capable of gripping a foundation pile 2, the upper end of the outer cannula 3 The outer tube reducer 16 set to the same dimension T ₁ as the outer diameter of the foundation pile 2 is detachably connected to the base pile 2. The chucking adjustment work described above is not required, and the time required for connecting the extracorporeal tube 3 or the foundation pile 2 to the vibratory hammer 6 can be significantly reduced as compared with the conventional work for pulling out 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 intubation 3 or foundation pile 2 is connected to the upper end of the employment pile 10 of the present embodiment, the set hire detachably connected piles reducer 12 to the outer diameter of the same dimension T ₁ of the foundation pile 2 are, moreover, the lower end of the employment pile 10, the piles chuck 14 employment is set to the chucking width H ₂ is possible to grasp the foundation pile 2 is integrally provided,
The chucking operation of the chuck section 7 of the vibro hammer 6 and the hiring pile chuck 14 of the hiring pile 10 is not required, and the hiring pile 1 can be removed as compared with the conventional operation of pulling out the foundation pile.
The working time for connecting the vibro-hammer 6, the extracorporeal tube 3 or the foundation pile 2 can be greatly reduced with respect to zero.

In addition, even if the outer diameter of the foundation pile 2 to be pulled out changes variously (for example, even if the outer diameter changes from 600 mm to 800 mm), a plurality of hire pile reducers 12 and extratubular tube reducers 16 are prepared. , Each hired 10
In addition, the work can be performed in a short time by the above operation by adjusting the chucking width of the vibro-hammer 6 and the hiring pile chuck 14 only once by bolting to the outer tube 3.

Therefore, in this embodiment, since the adjustment of the chucking width is not required as compared with the conventional case, the time required for completing the pulling out of one foundation pile 2 is greatly reduced, and the work efficiency is reduced. Extremely improved. Further, in the present embodiment, the work of adjusting the chucking width of the vibro-hammer immediately below the vibro-hammer, which has been conventionally performed, becomes unnecessary, so that the work can be performed safely.

[0037]

As described above, the pulling device for a foundation pile according to the first aspect of the present invention reduces the chucking width of the chuck portion of the vibro-hammer and the chuck of the hiring pile.
By simply setting the width to be substantially the same as the width of the foundation pile to be pulled out, the connection work time of the vibro hammer, the extratubular tube, the hired pile and the foundation pile can be significantly reduced. As a result, in the present invention, the time required to complete the pulling out of one foundation pile is greatly reduced and the work efficiency is significantly improved, as compared with the conventional foundation pile pulling-out operation.

Further, according to the method for extracting a submarine foundation pile according to the second aspect, even if the outer diameter of the foundation pile to be extracted changes, a plurality of types of first and second reducers are appropriately selected. It is only necessary to adjust the chucking width of the chuck of the vibro hammer and the hiring pile once by connecting it to the hiring pile and the extra intubation. It can be greatly reduced. Therefore, the time required to complete the pulling out of one foundation pile is greatly reduced, and the work efficiency is greatly improved.

Further, since the operation of adjusting the chucking width immediately below the vibro-hammer is not required, the operation can be performed safely.

[Brief description of the drawings]

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

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

FIG. 3 is a view showing an operation of arranging an extracorporeal tube supported by the auxiliary wire according to the present invention.

FIG. 4 is a view showing a state in which an extracorporeal tube is inserted into the seabed according to the present invention.

FIG. 5 is a view showing a connection state of a hiring stake between a vibro-hammer and an extratubular tube according to the present invention.

FIG. 6 is a diagram showing a state of placing an extracorporeal tube on the seabed ground according to the present invention.

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

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

FIG. 9 is a view showing release of a connection state between a foundation pile and a vibrohammer according to the present invention.

FIG. 10 is a view showing a state at the time of completion of pulling out the foundation pile according to the present invention.

[Description of Signs] 1 Pulling device 2 Foundation pile 3 External intubation 6 Vibro hammer 7 Chuck 7a Claw member 7b Driving unit 10 Hiring pile 12 Hiring pile reducer (first reducer) 12a Flange 12b Gripping member 14 Hiring pile chuck ( Chuck) 14a Claw member 14b Driving unit 16 External intubation reducer (second reducer) 16a Flange 16b Member to be gripped 20 Supplementary wire 21 Submarine ground 22 Sea surface 24 Main winding wire H ₁ Chucking width of chuck portion of vibro hammer H ₂ the outer diameter of the employment pile chuck chucking width T ₁ foundation pile

Continuing from the front page (72) Inventor Takayoshi Okunuki 1-25-1, Nishishinjuku, Shinjuku-ku, Tokyo Daisei Construction Co., Ltd. (72) Shinichi Tazaki 1-25-1, Nishishinjuku, Shinjuku-ku, Tokyo Large (56) References JP-A-4-41816 (JP, A) JP-A-4-169619 (JP, A) JP-A-6-146282 (JP, A) JP-A-4-258413 ( JP, A) (58) Field surveyed (Int. Cl. ⁶ , DB name) E02D 13/00 E02D 9/02

Claims (2)

(57) [Claims] 1. A vibro-hammer suspended from a crane, an upper end of a foundation pile disposed at a lower end of the vibro-hammer and pulled out, and an upper end of an outer tube having a diameter larger than that of the foundation pile. A hydraulically driven chuck part, and a hiring pile detachably connected between the chuck part and an extracorporeal tube or a foundation pile. A first reducer set to have the same diameter as the foundation pile to be pulled out is detachably connected, and a hiring pile chuck for gripping the extracorporeal tube or the foundation pile is integrally connected to the lower end of the hiring pile. And a second reducer having the same diameter as the foundation pile is detachably connected to an upper end of the outer tube. 2. A vibratory hammer suspended from a crane working boat with a hydraulically driven chuck disposed at a lower end thereof,
An outer tube having a second reducer detachably connected to an upper end thereof, and a chuck having a first reducer detachably connected to an upper end thereof, and a chuck for gripping an outer tube or a foundation pile are integrally formed at a lower end thereof. Using a linked hiring stake and
In the method of extracting underwater foundation piles for extracting foundation piles buried in the seabed, a plurality of types of first and second reducers having different diameters are prepared so as to correspond to a plurality of types of foundation piles to be extracted. At the same time, a reducer having the same diameter as the foundation pile to be pulled out is detachably connected to the hiring pile and the outer intubation, and the chucking width of the chuck portion of the vibrohammer and the chuck of the hiring pile is the same as that of the foundation pile to be pulled out at this time. A method for pulling out an underwater foundation pile, wherein the method is substantially the same as the outer diameter width.