KR102332459B1 - Method for constructing retaining wall on the sea using buoyancy and retaining wall assembly for the same - Google Patents

Abstract

According to the present invention, a part having a base, a wall extending upwardly from the base, and a plurality of supporting wing walls extending upward from the base and connected to the wall and sequentially arranged along the width direction of the wall A buttress-type retaining wall preparation step of preparing a wall-type retaining wall; A buoyancy tank preparation step for preparing a buoyancy tank coupled to the buttress-type retaining wall to provide buoyancy; combining the buttress-type retaining wall and the buoyancy tube at sea to form a retaining wall assembly; and an assembly transport step of transporting the retaining wall assembly from the sea to the installation site of the buttress-type retaining wall, wherein in the combining step, the buoyancy tube is detachably coupled to the buttress-type retaining wall by a coupling means using buoyancy. A method for offshore installation of a buttress-type retaining wall is provided.

Description

A method for offshore installation of a buttress-type retaining wall using buoyancy and a retaining wall assembly for the same

The present invention relates to a technology for installing an offshore structure, and more particularly, to a technology for installing a buttress-type retaining wall in the sea.

In general, a caisson, a reinforced concrete structure weighing thousands of tons, is used for the construction of berthing facilities such as quay walls. Since the caisson can provide its own buoyancy, it is launched and moved to the installation site using buoyancy, and then is installed by supplying water to the inside and settling it. The buttress-type retaining wall can structurally function like a caisson, but since it cannot provide buoyancy like a caisson, it cannot launch itself, so it is manufactured on a small scale and installed using an offshore crane.

Republic of Korea Patent Registration No. 10-1806855 "Modular shore structure and its construction method" (2018.01.18.)

It is an object of the present invention to provide a method for installing a buttress-type retaining wall by using buoyancy force and a retaining wall retaining wall assembly for the same.

In order to achieve the above object of the present invention, according to one aspect of the present invention, a base portion, a wall portion extending upward from the base portion, and a wall portion extending upward from the base portion to be connected to the wall portion and in the width direction of the wall portion A buttress-type retaining wall preparation step of preparing a buttress-type retaining wall having a plurality of support wing walls disposed in sequence along the; A buoyancy tank preparation step for preparing a buoyancy tank coupled to the buttress-type retaining wall to provide buoyancy; combining the buttress-type retaining wall and the buoyancy tube at sea to form a retaining wall assembly; and an assembly transport step of transporting the retaining wall assembly from the sea to the installation site of the buttress-type retaining wall, wherein in the combining step, the buoyancy tube is detachably coupled to the buttress-type retaining wall by a coupling means using buoyancy. A method for offshore installation of a buttress-type retaining wall is provided.

In order to achieve the above object of the present invention, according to another aspect of the present invention, a base portion, a wall portion extending upward from the foundation portion, and a wall portion extending upward from the base portion and connected to the wall portion in the width direction of the wall portion A buttress-type retaining wall having a plurality of supporting wing walls that are sequentially arranged along the; a buoyancy tube coupled to the buttress-type retaining wall to provide buoyancy; and a coupling means for detachably coupling the buttress-type retaining wall and the buoyancy tube, the retaining wall assembly for offshore installation of the buttress-type retaining wall using buoyancy is provided.

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, since the buttress-type retaining wall is detachably combined and moved to the installation site after launching using a reusable buoyancy tank, the offshore installation of a large buttress-type retaining wall is facilitated, and the quantity is reduced compared to the existing caisson. The construction cost can also be reduced because the buttress-type retaining wall is used.

1 is a flowchart schematically illustrating an offshore installation method of a buttress-type retaining wall using buoyancy according to an embodiment of the present invention.
FIG. 2 is a perspective view illustrating a buttress-type retaining wall prepared in the preparation step of the buttress-type retaining wall illustrated in FIG. 1 .
Figure 3 is a perspective view showing a buoyancy tube prepared in the buoyancy tube preparation step shown in FIG.
4 to 6 are views showing a state in which the coupling step shown in FIG. 1 is performed.
7 is a perspective view illustrating a retaining wall assembly formed by combining a retaining wall and a buoyant force tube by performing the combining step in FIG. 1 .
8 is a view showing a state in which the retaining wall assembly is floated by the buoyancy force for the assembly transport step shown in FIG. 1 .
9 is a view showing a state in which the retaining wall assembly is seated at the installation site by performing the assembly settling step shown in FIG. 1 .
10 is a view showing a state in which the buoyancy tube is separated from the buttress-type retaining wall by performing the dismantling step shown in FIG. 1 .

Hereinafter, the configuration and operation of the embodiment of the present invention will be described in detail with reference to the drawings.

1 is a flowchart schematically illustrating an offshore installation method of a buttress-type retaining wall using buoyancy according to an embodiment of the present invention. Referring to FIG. 1 , the method for offshore installation of a buttress-type retaining wall using buoyancy according to an embodiment of the present invention includes a buttress-type retaining wall preparation step (S11) in which an installation target buttress-type retaining wall is prepared, and combined with an installation buttress-type retaining wall The buoyancy tank preparation step (S12) in which the buoyancy tank is prepared, the coupling step (S20) of combining the installation target buoyancy type retaining wall and the buoyancy tank to form a retaining wall assembly (S20), and the retaining wall assembly formed through the coupling step (S20) Through the assembly transfer step (S30) of transporting to the installation site of It includes a dismantling step (S50) of separating the buoyancy tube from the retaining wall assembly settling at the installation site.

In the buttress-type retaining wall preparation step (S11), the buttress-type retaining wall to be installed is manufactured and prepared. In this embodiment, it will be described that the installation target buttress-type retaining wall is manufactured on land. 2 is a view showing an example of the installation target buttress-type retaining wall prepared through the buttress-type retaining wall preparation step (S11). 2, the installation target buttress-type retaining wall 110 is a plate-shaped base part 111, a wall part 120 formed by extending upward from the base part 111, and extending upward from the base part 111. A plurality of support wing walls 145 are formed.

The base part 111 has a flat plate-like shape disposed horizontally, and the wall part 120 and a plurality of support wing walls 145 are disposed on the upper surface of the base part 111 .

The wall portion 120 is formed to extend vertically upward from the base portion 111 . The wall portion 120 is located adjacent to the front end 112 side of the front end 112 and the rear end 113 of the base portion 111 in the base portion 111 . A plurality of support wing walls 145 are connected to the rear wall 125 facing the rear end 113 of the base 111 from the wall 120 . At the upper end of the wall portion 120 , the upper holding rings 130 are positioned as a coupler at a plurality of points connected to the plurality of support wing walls 145 . A coupling hole is formed in the upper holding ring 130 .

Each of the plurality of support wing walls 145 is formed to be erected from the base 111 . A plurality of support wing walls 145 are disposed between the wall portion 120 and the rear end portion 113 of the base portion 111 in sequence along the width direction of the wall portion 120 and are spaced apart from each other at substantially equal intervals. Each of the plurality of support wing walls 145 has a shape extending from the wall 120 toward the rear end 113 of the base 111 , and the height of the support wing 145 is the rear end 113 of the base 111 . It is generally triangular in shape, decreasing toward the side. Among the plurality of support wing walls 145 , lower holding rings 140 , which are coupling holes, are positioned at the lower ends of some of the support wing walls 145 . A coupling hole is formed in the lower holding ring 140 .

In the buoyancy tank preparation step (S12), the buoyancy tank coupled with the buttress-type retaining wall 110 prepared through the buttress-type retaining wall preparation step (S11) is prepared. Figure 2 shows an example of the buoyancy tube prepared through the buoyancy tube preparation step (S12). In this embodiment, the buoyancy tank prepared through the buoyancy tank preparation step (S12) is described as being manufactured in a floating dock (or dry dock), but the present invention is not limited thereto. Referring to FIG. 2 , the buoyancy tank 150 provides an internal space 150a and is a hollow structure with an open upper portion, and is formed in the internal space 150a to structurally support the buoyancy tank 150 . (160) are provided. In addition, a plurality of slit portions 165 that can be accommodated by inserting each of the plurality of support wing walls 145 provided in the buttress-type retaining wall 110 are formed in the buoyancy tube 150 . And, the buoyancy tube 150 has a plurality of upper coupling devices 155 detachably coupled to each of the plurality of upper holding rings 130 embedded in the buttress-type retaining wall 110 , and the buttress-type retaining wall 110 . A plurality of lower coupling devices 157 that are detachably coupled to each of the plurality of lower holding rings 140 embedded in the are installed. Corresponding holding rings 130 , 140 and coupling devices 155 , 157 constitute coupling means.

In the combining step (S20), the buttress-type retaining wall (110 in FIG. 2) prepared through the buttress-type retaining wall preparation step (S11) and the buoyancy tube (150 in FIG. 3) prepared through the buoyancy-type retaining wall preparation step (S12) are combined. . 4, 5 and 6 show a process in which the installation target buttress-type retaining wall 110 and the buoyancy tube 150 are coupled through the coupling step (S20). First, referring to FIG. 4 , the buoyancy tank 150 manufactured from the floating dock 170 (or dry dock) is levitated by its own buoyancy. Thereafter, the buoyancy tank 150 moves from the floating dock 170 and is temporarily moored. At this time, the launch of the buoyancy tank 150 may be made by draining the water filled in the buoyancy tank 150 or filling the floating dock 170 . Next, the buttress-type retaining wall 110 manufactured on land is moved to the floating dock 170 using a mobile device such as an IP-CCV (Individual Pushing Caisson Carrier Vehicle), and is loaded into the floating dock 170 . Next, the buoyancy tank 150 is moved to the floating dock 170 on which the buttress-type retaining wall 110 is shipped by using a tugboat, and is positioned in a position coupled with the buttress-type retaining wall 110 as shown in FIG. 5 . . Although not shown in detail in FIG. 6 , at this time, each of the plurality of support wing walls 145 formed in the buttress-type retaining wall 110 is partially inserted into each of the plurality of slit portions 165 formed in the buoyancy tube 150 . After sinking the buoyancy tank 150 by supplying water to the buoyancy tank 150 in this state, the coupling devices 155 and 157 (eg, hydraulic jack) are coupled to the corresponding carrying rings 130 and 140 to A retaining wall assembly 100 as shown in FIGS. 6 and 7 is formed in the floating dock 170 . The vertical movement of the buoyancy tube 150 with respect to the buttress-type retaining wall 110 is limited by the combination of the upper holding ring 130 and the upper coupling device 155 , and the lower holding ring 140 and the lower coupling device 157 are limited. ), the forward and backward movement of the buoyancy cylinder 150 with respect to the buttress-type retaining wall 110 is restricted by the combination of 145 is inserted so that the width direction movement of the buttress tube 150 with respect to the buttress-type retaining wall 110 is restricted. The coupling devices 155 and 157 have a moving bar, and the moving bar is fitted into the coupling hole formed in the holding rings 130 and 140, so that the coupling devices 155 and 157 and the holding rings 130 and 140 are coupled. .

In the assembly transfer step (S30), the retaining wall assembly 100 formed through the bonding step (S20) is transferred to the installation site of the buttress-type retaining wall 110 to be installed at sea. In the assembly transport step (S30), the water filled in the buoyancy tank 150 is drained from the state of the retaining wall assembly 100 shown in FIG. 6, and the retaining wall assembly is floated to the state shown in FIG. It can be performed by towing the retaining wall assembly 100 in the floating state to the installation site using a tugboat.

In the assembly sedimentation step (S40), the retaining wall assembly 100 transferred to the installation site of the buttress-type retaining wall 110 to be installed through the assembly transfer step (S30) is settled. The assembly sedimentation step (S40) is made by increasing the weight of the retaining wall assembly 100 by filling the internal space 150a of the buoyancy tank 150 in a state in which the retaining wall assembly 100 is positioned in a floating state at the installation position. . 9 shows an installed state in which the retaining wall assembly 100 is settling in the installation position.

In the dismantling step (S50), the buoyancy tube 150 is separated from the retaining wall assembly 100 that has been settling at the installation site through the assembly settling step (S40). The dismantling step (S50) is a plurality of coupling devices (155, 157) are separated from the plurality of holding rings (130, 140) coupled correspondingly and the water filled in the inner space (150a) of the buoyancy tube 150 is removed by is carried out The buoyancy tank 150 separated from the buttress-type retaining wall 110 by the dismantling step (S50) is raised by buoyancy as shown in FIG.

Although the present invention has been described through the above examples, the present invention is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present invention, and those skilled in the art will recognize that such modifications and changes also belong to the present invention.

100: retaining wall assembly 110: buttress-type retaining wall
111: base 120: wall
130: upper carrying case 140: lower carrying ring
145: support wing wall 150: buoyancy tube
155: upper coupling device 157: lower coupling means
160: bulkhead 165: slit portion

Claims (13)

Preparing a buttress-type retaining wall having a foundation, a wall extending upward from the foundation, and a plurality of support wing walls extending upward from the foundation and connected to the wall buttress retaining wall preparation stage;
A buoyancy tank preparation step for preparing a buoyancy tank coupled to the buttress-type retaining wall to provide buoyancy;
combining the buttress-type retaining wall and the buoyancy tube at sea to form a retaining wall assembly; and
and transferring the retaining wall assembly from the sea to the installation site of the buttress-type retaining wall,
A plurality of slit portions are formed in the buoyancy tube,
In the coupling step, the buoyancy tube is detachably coupled to the buttress-type retaining wall by a coupling means, and each of the plurality of support wing walls is inserted into each of the plurality of slits,
Offshore installation method of buttress-type retaining wall using buoyancy. delete The method according to claim 1,
The buoyancy tube is descended by the water supplied to the inner space of the buoyancy tube in a state positioned on the plurality of support wing walls, and each of the plurality of slits is inserted into each of the corresponding support wing walls,
Offshore installation method of buttress-type retaining wall using buoyancy. The method according to claim 1,
The coupling means is provided with a plurality of coupling devices installed on the buttress-type retaining wall, and a plurality of coupling devices detachably coupled to each of the plurality of coupling devices and installed in the buoyancy tube,
Offshore installation method of buttress-type retaining wall using buoyancy. Preparing a buttress-type retaining wall having a foundation, a wall extending upward from the foundation, and a plurality of support wing walls extending upward from the foundation and connected to the wall buttress retaining wall preparation stage;
A buoyancy tank preparation step for preparing a buoyancy tank coupled to the buttress-type retaining wall to provide buoyancy;
combining the buttress-type retaining wall and the buoyancy tube at sea to form a retaining wall assembly; and
and transferring the retaining wall assembly from the sea to the installation site of the buttress-type retaining wall,
In the coupling step, the buoyancy tube is detachably coupled to the buttress-type retaining wall by a coupling means,
The coupling means is provided with a plurality of coupling devices installed on the buttress-type retaining wall, and a plurality of coupling devices detachably coupled to each of the plurality of coupling devices and installed in the buoyancy tube,
The coupler is a holding ring having a coupling hole embedded in the buttress-type retaining wall,
wherein the coupling device has a moving bar that can be fitted into the coupling hole;
Offshore installation method of buttress-type retaining wall using buoyancy. 6. The method according to claim 1 or 5,
In a state in which the retaining wall assembly is transferred to the installation site through the transfer step of the assembly, water is supplied to the buoyancy tube and further comprising a sedimentation step of the assembly in which the retaining wall assembly is settled,
Offshore installation method of buttress-type retaining wall using buoyancy. 7. The method of claim 6,
Further comprising a dismantling step of separating the buoyancy tube from the retaining wall assembly settling at the installation site through the assembly settling step,
The dismantling step is made by draining water from the buoyancy tube in a state in which the coupling means is disassembled,
Offshore installation method of buttress-type retaining wall using buoyancy. 6. The method according to claim 1 or 5,
wherein the combining step is carried out in a floating dock or dry dock;
Offshore installation method of buttress-type retaining wall using buoyancy. delete a buttress-type retaining wall including a foundation, a wall extending upwardly from the foundation, and a plurality of supporting wing walls extending upward from the foundation and connected to the wall;
a buoyancy tube coupled to the buttress-type retaining wall to provide buoyancy; and
and coupling means for detachably coupling the buttress-type retaining wall and the buoyancy tube,
A plurality of slit portions into which each of the plurality of support wing walls are inserted are formed in the buoyancy tube,
Retaining wall assembly for offshore installation of buttress-type retaining walls using buoyancy. delete 11. The method of claim 10,
The coupling means is provided with a plurality of coupling devices installed on the buttress-type retaining wall, and a plurality of coupling devices detachably coupled to each of the plurality of coupling devices and installed in the buoyancy tube,
Retaining wall assembly for offshore installation of buttress-type retaining walls using buoyancy. a buttress-type retaining wall including a foundation, a wall extending upwardly from the foundation, and a plurality of supporting wing walls extending upward from the foundation and connected to the wall;
a buoyancy tube coupled to the buttress-type retaining wall to provide buoyancy; and
and coupling means for detachably coupling the buttress-type retaining wall and the buoyancy tube,
The coupling means is provided with a plurality of coupling devices installed on the buttress-type retaining wall, and a plurality of coupling devices detachably coupled to each of the plurality of coupling devices and installed in the buoyancy tube,
The coupler is a holding ring having a coupling hole embedded in the buttress-type retaining wall,
wherein the coupling device has a moving bar that can be fitted into the coupling hole;
Retaining wall assembly for offshore installation of buttress-type retaining walls using buoyancy.

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