KR102079186B1 - Constructing Method for Multi Suction Piles, and Guide Frame for Multi Suction Piles - Google Patents

Abstract

The present invention relates to a guide frame and a multiple suction pile construction method using the same, which interpenetrate a suction pile into the underwater ground after inserting a plurality of suction piles into the underwater ground to place the same on the underwater ground at the same by using the guide frame having a space in which the plurality of suction piles can be vertically placed, thereby shortening time required for constructing the plurality of suction piles, more efficiently performing construction, enabling exact verticality to be easily secured during the construction of the suction pile, and enabling interpenetration force of the suction pile with respect to the uneven or solid ground to be increased.

Description

Guide frame for transporting and installing a plurality of suction piles and constructing a multi suction pile using the same {Constructing Method for Multi Suction Piles, and Guide Frame for Multi Suction Piles}

The present invention is a guide frame for simultaneously transporting a plurality of suction pile (suction pile) consisting of a cylindrical member and put into the water, and a method for transferring a plurality of suction piles and placing them on the ground of the water by using the same Specifically, using a guide frame having a space in which a plurality of suction piles can be placed vertically, a plurality of suction piles are simultaneously transported, put in the water and placed on the ground, and then the suction pile By intruding into the underwater ground, the time required to construct a plurality of suction piles can be shortened and the construction can be carried out more efficiently.In the process of constructing the suction pile, it is easy to secure the exact verticality. "Guide frame to increase the pipe input of the suction file for the multi-suction file Construction method ".

Suction piles are installed on the ground for fixing or restraining floating bodies or offshore structures. Previously, a suction pile consisting of a cylindrical member of a large diameter was used, but in recent years, construction has been carried out in the form of securing a necessary binding force by installing a plurality of small diameter suction piles. Korean Patent Nos. 10-1399090, 10-1307165, 10-1278509, and 10-1398912 describe techniques for constructing foundations by constructing small diameter suction piles or constructing structures for mooring offshore structures. Is disclosed.

One of the important points in constructing a plurality of small diameter suction piles is to accurately install a plurality of small diameter suction piles according to the designed vertical degree. In constructing a plurality of small diameter suction piles, it is also very important to reduce the cost and time due to the rapid transfer of the plurality of suction piles to the construction position.

Even in the above-described prior art, it is possible to secure an accurate vertical degree (or vertical degree) of the suction pile, but there are some inadequate methods for quickly transferring a plurality of suction piles. Therefore, an efficient alternative is urgently needed. .

Republic of Korea Patent Publication No. 10-1399090 (2014. 05. 30. announcement). Republic of Korea Patent Publication No. 10-1307165 (released September 11, 2013). Republic of Korea Patent Publication No. 10-1278509 (2013. 07. 02. announcement). Republic of Korea Patent Publication No. 10-1398912 (2014. 05. 30. announcement).

The present invention was developed in order to overcome the limitations of the prior art as described above, while installing a plurality of small diameter suction pile as an alternative to the large diameter suction pile, to quickly transfer a plurality of small diameter suction pile to the construction position It can reduce the cost and time due to the transfer, and it is possible to improve the construction precision and construction quality by efficiently securing the accurate verticality according to the design in the process of constructing a plurality of small diameter suction piles. The purpose is to provide the technology.

In order to achieve the above object, the present invention has a configuration in which a plurality of insertion spaces (2) into which the cylindrical suction pile (4) is vertically erected and fitted into a vertical shape are continuously integrated in a horizontal direction; Inside the insertion space 2, there is provided a file fixing member (3) for fixing the suction pile (4) inserted in the insertion space (2) in such a way that it is impossible to vertically move or release the fixed state so that the vertical movement is free. In; When the suction pile 4 is transported and put in water, a plurality of suction piles 4 are vertically fitted in each of the plurality of insertion spaces 2 and the state of being fitted by the pile fixing member 3 is fixed; After being placed in the underwater ground by the introduction of the water, the state of the suction pile 4 by the pile fixing member 3 is released, so that the suction pile 4 is inserted into the insertion space 2 and guided to the underwater ground. A guide frame is provided for the transport and installation of a plurality of suction piles, characterized in that they can be intrusive.

In addition, in the present invention, in order to achieve the above object, a plurality of suction piles (4) is inserted into the underwater ground, a plurality of inserts made of a rectangular cube, the cylindrical suction pile (4) is vertically fitted The space 2 is continuously integrated in the horizontal direction, and the suction pile 4 inserted in the insertion space 2 is fixed to the inside of the insertion space 2 such that vertical movement is impossible or vertical movement is free. Using a guide frame (1) provided with a pile fixing member (3) for releasing the state; Mounting a plurality of suction piles 4 vertically in each of the plurality of insertion spaces 2 of the guide frame 1 and fixing a state in which the suction piles 4 are fitted by the pile fixing members 3; Transporting the guide frame (1) having a plurality of suction piles (4) and putting the guide frame (1) in the water by a lifting device to place the guide frame (1) in the underwater ground; And releasing the fixed state of the suction pile 4 by the file fixing member 3, making the suction pile 4 vertically movable, and then suctioning the suction pile 4 to be inserted into the insertion space 2. Provided is a method of constructing a plurality of suction piles comprising the step of intruding into the underwater ground while being guided.

In the guide frame of the present invention and the suction pile construction method using the same, the pile fixing member 3, the expansion jack 30 is stretched in the horizontal direction; And an adhesive plate 31 provided at an end portion of the elastic jack 30 to be in close contact with the side of the suction pile 4; In the state in which the suction pile 4 is vertically inserted into the insertion space 2 of the guide frame 1, the expansion jack 30 is extended to press the contact plate 31 against the side of the suction pile 4 in close contact. Making the vertical movement of the suction pile 4 impossible; In the step of releasing the fixed state of the suction pile 4 by the pile fixing member 3, the expansion jack 30 may be contracted to separate the contact plate 31 from the suction pile 4. have.

On the contrary, the guide frame of the present invention and the method of constructing the suction pile using the same, the pile fixing member 3 is provided on the elastic member 33 on the lower surface of the edge portion of the insertion space 2 of the guide frame 1. It comprises a sliding support plate 32 for sliding forward and backward in the direction of the center of the insertion space (2); Before placing the plurality of suction piles 4 in each of the plurality of insertion spaces 2 of the guide frame 1, the elastic member 33 is operated to move the sliding support plate 32 toward the center of the insertion space 2. Advance; By sliding the suction pile 4 vertically into the insertion space 2 of the guide frame 1 while the sliding support plate 32 extends toward the center of the insertion space 2, the suction pile 4 slides. (32) on the top, making vertical movement of the suction pile 4 impossible; In the step of releasing the fixed state of the suction pile 4 by the pile fixing member 3, the sliding support plate 32 is retracted by the elastic member 33 so that the sliding support plate 32 supports the suction pile 4. You may have a configuration that does not.

According to the present invention, since a plurality of suction piles are transferred to a guide frame in a state in which the plurality of suction piles are not moved vertically and are placed in the water, the time required for the transfer and the feeding of several suction piles can be greatly reduced and the cost is also reduced. In addition, it is possible to effectively prevent damage to the suction file due to the collision between the suction file during the transfer process is exhibited.

Particularly, in the present invention, since the guide frame of the state in which the plurality of suction piles are disposed is placed in a designed position by lifting the water into the lifting equipment, the plurality of suction piles can be accurately positioned at the designed penetration position at the same time. Improvements and cost savings can also be expected.

Furthermore, in the present invention, the suction file is guided in the insertion space of the guide frame while being infiltrated into the ground while maintaining the original vertical degree, so that the suction file can be accurately and easily secured. It can be intrusive construction, and the construction quality can be greatly improved.

1 is a schematic perspective view showing a guide frame according to a first embodiment of the present invention.
Figure 2 is a schematic perspective view showing a state in which the suction pile is disposed in the guide frame shown in FIG.
Figure 3 is a schematic perspective view showing that the suction pile is disposed in all the insertion space of the guide frame shown in FIG.
4 is a schematic enlarged view of a circle A portion of FIG. 1 showing a corner portion in which a pile fixing member is installed inside the insertion space of the guide frame.
FIG. 5 is a schematic vertical plan view showing that a suction pile is inserted and fixed or released in an insertion space having a pile fixing member formed of an elastic jack.
Figure 6 is a schematic perspective view of a guide frame according to a second embodiment of the present invention having a pile fixing member made of a sliding support plate.
Figures 7 and 8 are schematic enlarged perspective views of the circle B portion of Figure 6 for showing in detail the pile fixing member consisting of a sliding support plate, respectively.
FIG. 9 is a schematic vertical plan view showing that a suction pile is inserted and fixed or released in an insertion space having a pile fixing member formed of a sliding support plate.
10 is a schematic perspective view of the guide frame of the present invention having a total of nine insertion spaces.
Figure 11 is a schematic diagram showing the use of the guide frame of the present invention to transfer a plurality of suction piles placed on the ground and penetrating construction.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. Although the present invention has been described with reference to the embodiments shown in the drawings, this is described as one embodiment, whereby the technical spirit of the present invention and its core configuration and operation are not limited.

FIG. 1 is a schematic perspective view showing a guide frame 1 according to a first embodiment of the present invention, and in FIG. 2, a suction pile 4 is disposed in the guide frame 1 shown in FIG. 1. A schematic perspective view is shown, and FIG. 3 shows a schematic perspective view showing that the suction pile 4 is disposed in all the insertion spaces 2 of the guide frame 1 shown in FIG. 1. For convenience, the direction in which the cylindrical suction pile 4 extends, that is, the direction in which the suction pile 4 extends and penetrates perpendicularly to the underwater ground is described as "vertical direction", and the direction perpendicular thereto is referred to as "horizontal direction". List it.

The guide frame 1 according to the present invention is a box-shaped member having a configuration in which a plurality of insertion spaces 2 made of a square cube are continuously integrated in a horizontal direction. Each insertion space (2) is in the vertical direction and the lower surface is open so that the suction pile 4 is inserted in the vertical direction in the form of a rectangular parallelepiped or a cube, the guide frame (1) such a box (box) The plurality of insertion spaces 2 are formed continuously in the horizontal direction. As illustrated in the drawings, by placing the rod members at the corners of the rectangular cube and connecting each rod member by a method such as welding, the guide frame in the form of a frame having a plurality of insertion spaces 2 formed of the rectangular cube. 1) can be configured. However, the present invention is not limited to such a frame form, for example, by forming a horizontal wall surface of the square hexahedron using a plate member, the vertical upper and lower surfaces are open and the horizontal wall surface The guide frame 1 may be configured in a form in which a plurality of box-shaped insertion spaces 2 blocked by the plate member are continuously formed.

In the process of transferring the suction pile 4 and underwater, while maintaining the state in which the suction pile 4 is vertically inserted into the insertion space 2, the suction pile 4 is in the process of performing the ground penetration work of the suction pile 4. In the guide frame 1 of the present invention, the suction pile 4 is firmly attached to the guide frame 1 so that the suction file 4 can be freely advanced in the vertical direction while being inserted into the insertion space 2. It is provided with a pile fixing member (3) for maintaining or releasing the fitted state as needed. In the embodiment shown in Figs. 1 to 3, the pile fixing member 3 is made of a telescopic jack that is capable of stretching in the horizontal direction, so that the inside of the insertion space 2 of the guide frame 1 (specifically, the inner edge of the insertion space). Part).

FIG. 4 is a schematic enlarged view of the circle A portion of FIG. 1, that is, a schematic enlarged view of a corner portion where the pile fixing member 3 is installed inside the insertion space 2 of the guide frame 1. . 5, the suction pile 4 is inserted into the insertion space 2 provided with the pile fixing member 3 made of the elastic jack 30, and the suction pile 4 is fixed or fixed by the pile fixing member 3. A schematic vertical plan view is shown showing release.

In the embodiment shown in Figures 1 to 5, the pile fixing member (3) consists of a telescopic jack (30) which is stretched horizontally by hydraulic, pneumatic, or some other way, such a pile fixing member (3) ) Is provided at four corner portions in the rectangular plane shape of the insertion space (2). An end portion of the expansion jack 30 may be provided with a close contact plate 31 in close contact with the side of the suction pile (4).

When the pile fixing member 3 of such a structure is provided, the expansion jack 30 has the cylindrical suction pile 4 vertically inserted into each insertion space 2 of the guide frame 1, and is inserted. ) And the close contact plate 31 is pressed against the side of the suction pile 4 and pressed strongly, so that the suction pile 4 cannot move in the vertical direction and the horizontal direction, and thus the suction pile 4 It is possible to stably maintain the inserted state with the planned vertical degree in the insertion space (2) without falling in the vertical direction during the transport and underwater input process. When performing the suction penetration operation of the suction pile 4 after the guide frame 1 on which the suction pile 4 is mounted is disposed on the underwater ground, as described later, the expansion jack 30 contracts and adheres to the close contact plate 31. The suction pile 4 is separated from the suction pile 4, and thus the suction pile 4 is freely movable in the vertical direction with a vertical degree designed without any restriction for penetration into the underwater ground.

In the present invention, the pile fixing member 3 may be configured to support the lower end of the suction pile 4 in parallel or separately from the shape of the expansion jack illustrated above. 6 shows a schematic perspective view of a guide frame 1 according to a second embodiment of the invention with a pile fixing member 3 consisting of a sliding support plate 32. 7 and 8 show a schematic partial enlarged perspective view of the circle B portion of FIG. 6 for showing in detail the pile fixing member 3 consisting of the sliding support plate 32, respectively, in FIG. ) Shows a state of advancing toward the center of the insertion space (2), Figure 8 shows a state in which the sliding support plate 32 is retracted. FIG. 9 is a schematic plan view showing a state in which the suction pile 4 is inserted into the insertion space 2 of the guide frame 1 while the sliding support plate 32 slides out.

In the second embodiment shown in FIGS. 6 to 9, the lower and lower edges of the inside of the insertion space 2 of the guide frame 1 slide forward and backward in the center direction of the insertion space 2 by the elastic member 33. A sliding support plate 32 is provided as the pile fixing member 3. In order to support the sliding support plate 32, a cross-linking member 34 is integrally provided with the guide frame 1 at the corner portion inside the insertion space 2. Therefore, the sliding support plate 32 is placed on the bridge member 34, and slides toward the center of the insertion space (2) while being placed on the bridge member 34 in accordance with the operation of the elastic member (33). The crosslinking member 34 may be a plate member as shown in the drawing, but may also be a rod member.

In the case of the guide frame 1 with the pile fixing member 3 made of the sliding support plate 32 as described above, the sliding support plate 32 firstly advances toward the center of the insertion space 2. The guide frame 1 is provided with a plurality of such sliding support plate 32, at least two sliding support plate 32 is advanced in the direction of the center of the insertion space (2) as described above. When the sliding support plate 32 extends in this way, when the cylindrical suction piles 4 are vertically inserted into and inserted into the insertion spaces 2, the lower surface of the suction piles 4 is placed on the sliding support plates 32. . Therefore, the sliding support plate 32 advancing in the center direction of the insertion space 2 supports the suction pile 4, and the suction pile 4 is not movable in the vertical direction and does not fall in the vertical direction. In this way, the state of being inserted into the insertion space 2 can be stably maintained. As described later, when the guide frame 1 on which the suction pile 4 is mounted is disposed on the underwater ground, and when the suction penetration operation of the suction pile 4 is performed, the sliding support plate is operated by the operation of the elastic member 33. 32 is retracted by sliding in the direction of the edge of the guide frame (1), so that the sliding support plate 32 is no longer supporting the lower surface of the suction pile (4), the suction pile (4) It can be freely moved in the vertical direction without restriction.

In the guide frame 1 of the present invention, some pile fixing members are formed of pile fixing members 3 shown in FIGS. 4 and 5, and other pile fixing members 3 are shown in FIGS. 6 to 9. It can also be formed.

In the above description, the guide frame 1 in which the three insertion spaces 2 are continuously arranged in a row is illustrated, but the number and arrangement of the insertion spaces 2 formed in the guide frame 1 of the present invention are determined accordingly. It is not limited. FIG. 10 is a schematic perspective view of the guide frame 1 of the present invention provided with a total of nine insertion spaces 2 each of three horizontally and vertically. As illustrated in FIG. 10, in the guide frame 1 of the present invention, the number of insertion spaces 2 may be freely changed as necessary, and a plurality of insertion spaces may be continuously arranged in a row, but a plurality of horizontally and vertically in planar shape. It is also possible to configure so that there are two insertion space (2).

Next, a description will be given of a process of transferring and installing and constructing a plurality of suction piles 4 using the guide frame 1 of the present invention having the above configuration.

FIG. 11 is a schematic view showing the transfer of a plurality of suction piles 4 using the guide frame 1 of the present invention to be disposed on the subsurface ground 200 and the penetration construction. As illustrated in the drawing, when the guide frame 1 of the present invention is used, a plurality of suction piles 4 can be simultaneously transferred. That is, the suction pile 4 is vertically inserted and disposed in each of the insertion spaces 2 of the guide frame 1 on the land or the ship, and the suction pile 4 is operated by operating the pile fixing member 3. ), So that it is no longer able to move vertically, making it stable. 1 to 5, in the state in which the suction pile 4 is inserted into the insertion space 2, the expansion jack 30 provided as the file fixing member 3 is inserted into the center direction of the insertion space 2. By advancing into the contact plate 31 is in close contact with the side of the suction pile (4) to strongly press the suction pile (4) can be made in a state that can not be moved vertically. 6 to 9, the suction pile in the insertion space 2 in a state in which the sliding support plate 32 provided as the pile fixing member 3 extends toward the center of the insertion space 2. By inserting (4) vertically so that the lower surface of the suction pile (4) is supported on the sliding support plate 32, the suction pile (4) can be made impossible to vertically move.

In this way, the plurality of suction piles 4 are vertically arranged in the insertion space 2 of the guide frame 1 in a state in which the vertical movement is impossible, and transferred to the construction site by the ship. Since several suction piles 4 are simultaneously transferred, the time required for the transfer can be greatly reduced. In addition, since the suction piles 4 are vertically inserted into the insertion space 2, the suction piles 4 can be effectively prevented from being damaged by the collision between the suction piles 4 during the transfer process. .

Subsequently, using the lifting equipment 100, such as a crane, the guide frame 1 is lifted and placed in water and placed in the underwater ground. In other words, by lifting and placing the guide frame (1) with lifting equipment, the plurality of suction piles (4) are placed on the underwater ground at the construction site designed at the same time. As described above, according to the present invention, the plurality of suction piles 4 can be put in the water at the same time, and furthermore, the plurality of suction piles 4 can be precisely disposed at the designed position at the same time, so that the suction pile 4 It can greatly reduce the time required for underwater input and placement, and in particular, it is possible to greatly reduce the time and effort required to place the suction pile 4 at the correct penetration position, thereby improving work efficiency and reducing costs. In particular, when the guide frame 1 on which the plurality of suction piles 4 are arranged is placed on the underwater ground, the suction pile 4 of the suction frame 4 positioned in the self-weight of the guide frame 1 and the insertion space of the guide frame 1 is disposed. Since the self-weight acts at the same time, the lower end of the suction pile 4 is infiltrated with a considerable depth on the surface of the underwater ground, so that the construction of the suction pile 4 can be made more efficiently and quickly.

After the guide frame 1 is placed on the underwater ground in a desired form, the fixed state of each of the suction piles 4 is released, and at the same time or sequentially, the guide frame 1 is introduced into the depth necessary for the underwater ground. In the case of the embodiment shown in FIGS. 1 to 5, the suction pile 4 is freed by retracting the expansion jack 30 to release the state in which the contact plate 31 presses the side of the suction pile 4. The vertically movable state is made possible, and the suction pile 4 is introduced into the underwater ground by a known suction method. 6 to 9, the sliding support plate 32 is retracted by sliding so that the sliding support plate 32 completely deviates from the lower surface of the suction pile 4 so that the suction pile 4 is free to move vertically. Will be enabled.

The guide frame 1 of the present invention has an insertion space 2 of a rectangular cube, and the insertion space 2 has a predetermined vertical height. Therefore, when the suction pile 4 is inserted into the underwater ground by the suction in the state inserted in the insertion space (2), the penetration can be made while maintaining the verticality established in the first place because it is guided by the insertion space (2), Therefore, it is easily infiltrated into the ground while securing the designed vertical degree. That is, according to the present invention, it is possible to precisely construct each of the plurality of small-diameter suction piles having an accurate perpendicularity to match the design, thereby improving the construction quality.

After all the sequential penetration of the suction pile 4 mounted on the guide frame 1 is inserted into the underwater ground, the guide frame 1 is lifted and recovered, and then reused.

As described above, according to the present invention, it is possible to quickly and efficiently construct a small diameter suction pile at a desired position on the underwater ground. Therefore, by using the present invention, the construction of the foundation anchor for mooring the floating structure (for example, floating solar power plant, etc.), it is possible to perform a very efficient construction in the field. In particular, as described above, according to the present invention, even when the suction pile is infiltrated into the homogeneous subsurface, accurate vertical degree can be easily secured, and the pipe input is increased, so that the suction pile can be easily installed even in the rigid layer. The advantage of being able to be exhibited.

1: guide frame
2: insertion space
3: pile fixing member
4: suction pile
30: telescopic jack
31: contact plate
32: sliding support plate
33: elastic member
34: crosslinking member

Claims (6)

It consists of a square hexahedron and has a configuration in which a plurality of insertion spaces in which the tubular suction pile is vertically inserted and inserted are continuously integrated in the horizontal direction;
Inside the insertion space, there is provided a pile fixing member for fixing the suction file inserted in the insertion space in such a way that the vertical movement is impossible or the release file is released so that the vertical movement is free;
The pile fixing member includes an expansion jack which is stretched and contracted in a horizontal direction, and an adhesion plate provided at an end portion of the expansion jack to be in close contact with the side of the suction pile;
When the suction pile is transported and put in water, when a plurality of suction piles are vertically inserted and inserted into each of the plurality of insertion spaces of the guide frame, and the expansion jack is extended and the contact plate is pressed against the side of the suction pile, The suction pile is fixed by being fitted by the pile fixing member so that movement in the vertical direction is impossible;
After being placed in the ground by underwater input, the expansion jack of the pile fixing member contracts, the contact plate is separated from the suction pile, and the suction pile is released so that the suction pile can move freely in the vertical direction. Guide frame for the transport and installation of a plurality of suction piles, characterized in that it has a configuration to be inserted into the guide while being guided into the space.
delete delete As a method of penetrating and constructing a plurality of suction piles in the underwater ground,
It consists of a square cube, and the plurality of insertion spaces in which the tubular suction piles are vertically erected are continuously integrated in the horizontal direction. Using a guide frame provided with a pile fixing member for releasing a fixed state so that vertical movement is free;
Vertically inserting the plurality of suction files into each of the plurality of insertion spaces of the guide frame and fixing the suction file inserted by the file fixing member;
Transporting the guide frame on which the plurality of suction piles are disposed, placing the guide frame in the water by the lifting device, and placing the guide frame in the underwater ground; And
Releasing the fixed state of the suction file by the file fixing member, making the suction file vertically movable, and injecting the suction file into the underwater ground while being guided while being inserted into the insertion space;
Pile fixing member, the expansion jack is stretched in the horizontal direction; And an adhesion plate provided at an end portion of the expansion jack to be in close contact with the side of the suction pile;
In the state in which the suction file is vertically inserted into the insertion space of the guide frame, the elastic jack is extended to press the contact plate against the side of the suction file, thereby making the vertical movement of the suction file impossible.
In the step of releasing the fixed state of the suction pile by the pile fixing member, the expansion jack is contracted to separate the contact plate from the suction pile, the construction method of a plurality of suction piles. delete delete

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