KR101341176B1 - Offshore pile-type support structure and construction method thereof - Google Patents

Abstract

Disclosed is an offshore pile-type support structure. The offshore pile-type support structure according to the present invention comprises: multiple piles disposed on the seabed; a fish house that is supported by the piles and which has an upper structure disposed on the upper part thereof; a connection core which has one-to-one correspondence to the multiple piles and which is vertically protruded from the bottom surface of the fish house; and a pile socket that is combined with the head of the pile and which has a vertical hole formed for the connection core to be inserted in. The pile is disposed to be inclined while the pile socket is combined vertically with the head of the pile. The connection core is composed of a steel material penetrating from the inside of the fish house to the bottom surface and of a front end connection material additionally provided on the outer circumferential surface of the connection core; and provided by penetrating the core hole formed on the floor of the fish house and fixated on the fish house by a core support plate. The hole of the pile socket in which the connection core is inserted is filled with a filling material bonding the connection core and the pile socket; the fish house has concrete placed therein; and the connection core is integrated with the concrete place inside the fish house. The offshore pile-type support structure uses multiple piles, the pile socket and the connection core which are capable of absorbing construction error in the assembly construction for assembling the piles and the fish house based on a designed structure without the position correction of the installed piles, and obtains the effect of securing the structural stability of the structure.

Description

Offshore support structure and construction method thereof {OFFSHORE PILE-TYPE SUPPORT STRUCTURE AND CONSTRUCTION METHOD THEREOF}

The present invention relates to an offshore support structure and a construction method thereof, and more particularly, to an offshore support structure and a construction method thereof that are easily assembled between a plurality of piles and a PC house.

In general, the offshore structure refers to a variety of structures that can be installed on the sea with a foundation fixed to the seabed, and typically there is an offshore oil drilling platform and offshore wind turbine.

Such an offshore structure is generally composed of a substructure that is fixed to the seabed and constitutes a foundation structure, a PC house for installing the superstructure on top of the substructure, and an upper structure installed on the PC house.

As a substructure, a pile type that is infiltrated on the sea floor is used. Among them, a dolphin type that forms a platform by joining the head to concrete after installing a plurality of piles corresponds to a highly preferred type.

Among these dolphin types, slanted piles that are more stable against wave force have been used in recent years. The slanted type of pile is characterized by the fact that a plurality of piles are inserted in a conical shape such that the gap between the piles is narrowed toward the head exposed to the sea and infiltrated over a large area with a large distance from each other.

As such, the structure in which the pile is inclined can be more effectively resisted against the wave force acting in the horizontal direction than the vertical pile structure, thereby ensuring the structural stability of the structure.

1 is a front view schematically showing a coupling structure of a conventional dolphin-type substructure and the upper structure 30. In this dolphin-type substructure, each of the piles 10 is tilted at a predesigned angle.

As such, the concrete PC house 20 manufactured by the precast method is installed on the head of the pile 10 which is inclinedly constructed, and the PC house 20 is installed in the sea, which corresponds to a very difficult task.

In particular, the most difficult point when installing the PC house 20 is the pile insertion hole made in the lower part of the PC house 20 because the upper end of the pile 10 is not arranged in a pre-designed position due to the construction error of the pile 10 ( 25) it is difficult to penetrate the head of the pile 10.

In addition, as shown in FIG. 1, the pile insertion hole 25 is formed in the form of a long hole extending along the inclination direction of each pile 10 to accommodate the pile 10 having an inclination. It did not absorb the construction error of).

Conventionally, in order to correct the problems caused by the construction error as described above, using a device that can apply an external force, such as jackup (Jackup), after placing the head of the pile 10 in the designed position and fixed, and the pile (10) ) Was penetrated through the pile insertion hole 25 to mount the PC house 20. Then, the concrete was poured into the PC house 20 to integrate the PC house 20 and the pile 10.

However, in the case of constructing the PC house 20 after changing the position of the head of the pile 10 by forcibly applying external force to the pile 10 driven on the sea floor as described above, an initial stress is generated in the structure. There is a problem of lowering.

The present invention has been made to solve at least some of the problems of the prior art, as an aspect, it is an object of the present invention to provide a marine support structure and a construction method that can be assembled PC house without the position correction of the pile.

As one aspect for achieving at least some of the above objects, the present invention provides a plurality of piles installed on the seabed; A PC house supported by the pile and having an upper structure installed thereon; A connection core corresponding to the plurality of piles one-to-one and protruding vertically from the bottom of the PC house; And a pile socket coupled to the head of the pile and having a vertical hole in which the connection core is inserted, wherein the pile is installed to be inclined, and the pile socket is vertically coupled to the head of the inclined pile. The connection core is formed of a steel penetrating the bottom surface from the inside of the PC house, the outer peripheral surface of the connection core is further provided with a shear connecting material, the connection core is provided through the core hole formed in the bottom of the PC house It may be fixed to the PC house through a core support plate, the hole of the pile socket is inserted into the hole of the pile socket is filled with a filler for joining the connecting core and the pile socket, the concrete is placed inside the PC house And the connection core is integrated with the concrete poured inside the PC house. Provide support structures.

delete

delete

Also preferably, the hole formed in the pile socket may have a larger diameter than the connection core.

delete

Also preferably, an injection hole into which the filler may be injected may be formed in the core support plate.

delete

Also preferably, the upper end of the pile socket may be further provided with a support plate in contact with the bottom of the PC house.

delete

On the other hand, as another aspect the present invention comprises the steps of installing a plurality of files on the seabed; Coupling a pile socket having a vertical hole to the head of the pile; And a PC house corresponding to the plurality of piles having a one-to-one correspondence and having a connection core projecting downward downwardly on the bottom thereof, and inserting the connection core into the pile socket on the pile socket. Provide construction method.

In addition, the marine support structure construction method, the step of filling the filler between the pile socket and the connecting core after the PC house mounting step; And placing concrete in the interior of the PC house.

In one embodiment, the pile may be installed to be inclined.

According to an embodiment of the present invention having such a configuration, by using a pile socket and a connecting core that can absorb the construction error of the pile in the assembly of a plurality of piles and PC house, it is designed without the need for position correction of the installed pile It is possible to assemble the pile and the PC house according to the structure, through which the effect of securing the structural stability of the structure can be obtained.

In addition, according to an embodiment of the present invention, by assembling the PC house through the pile socket for vertically changing the assembly direction between the plurality of piles and the pile house installed inclined, it is possible to shorten the offshore construction period of the marine support structure The effect can be obtained.

1 is a front view schematically showing a coupling structure of a dolphin-type substructure and the superstructure according to the prior art.
Figure 2 is an exploded front view of the marine support structure according to an embodiment of the present invention.
3 is a front sectional view showing a coupling structure of the PC house and the pile of the marine support structure shown in FIG.
4A to 4D are schematic diagrams sequentially showing a method for constructing a marine support structure according to an embodiment of the present invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Furthermore, the singular forms "a", "an," and "the" include plural referents unless the context clearly dictates otherwise.

In this specification, terms such as " comprise ", " comprise ", and " have "mean that there exist features, numbers, steps, operations, elements, parts, And should not be construed to preclude the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, referring to Figures 2 and 3, looks at the marine support structure according to an embodiment of the present invention. 2 is an exploded front view of the marine support structure according to an embodiment of the present invention, Figure 3 is a front sectional view showing a coupling structure of the PC house and the pile.

2 and 3, the marine support structure 100 according to an embodiment of the present invention includes a plurality of piles 110, a PC house 120, a connection core 130, and a pile socket 140. .

The pile 110 may be formed of a steel pipe, and is installed so as to penetrate the seabed and be exposed to the top of the seabed to support the top structure 150, such as a tower of the offshore wind turbine, from the bottom of the seabed. Can be configured.

The pile 110 may be composed of a plurality of three or more in one embodiment of the present invention, the plurality of piles 110 may be symmetrically disposed on the seabed to stably support the upper structure 150. have.

In one embodiment, the plurality of piles 110 may be installed to be inclined in a conical structure to form a dolphin-type substructure, but is not limited thereto, and may be installed vertically. However, the plurality of piles 110 are preferably inclined so as to have a more stable structure against the horizontal force due to the flow of sea water.

On the other hand, the PC house 120 is installed on the head of the pile 110 is supported by the pile 110 at sea, the upper structure 150 may be installed on the upper portion of the PC house 120.

The PC house 120 may be composed of a reinforced concrete structure manufactured by a precast method, and may have a structure in which an inner space is formed by consisting of a floor and a side wall.

Here, the concrete (C) is poured into the interior space of the PC house 120, the connection core 130 and the PC house 120 to be described later can be integrated.

On the other hand, the connection core 130 is a portion protruding vertically from the bottom of the PC house 120, it may be composed of a number corresponding to the number of the plurality of files 110, a plurality of each of the files (110) It may be provided at a position corresponding to the position one-to-one.

In one embodiment, the connection core 130 may be made of a steel penetrating the bottom surface from the inside of the PC house 120. The connection core 130 may be composed of a steel bar or steel pipe.

Here, when the connection core 130 is made of a steel pipe, the upper end of the connection core 130 may be open or closed. In this case, when the upper end of the connection core 130 is an open structure, when the concrete (C) is poured on the PC house 120, the concrete (C) is poured into the interior of the connection core 130, the concrete (C) usage Although there is an increasing disadvantage, the concrete (C) inside the connection core 130 and the concrete (C) poured into the PC house 120 is synthesized to increase the composite strength between the PC house 120 and the connection core 130 As a result, there is an advantage that the structural stability of the structure is improved.

In addition, the outer peripheral surface of the connection core 130 may be provided with a shear connector 132. Here, the shear connecting member 132 may enhance the resistance between the connecting core 130 and the filler (for example, a composite material such as concrete, grout) and the shear force generated at the junction of both.

The shear connector 132 may be configured as a plate provided horizontally along the outer periphery of the connection core 130, as shown in Figures 2 and 3, but is not limited to this, stud bolt, threaded plate It can be composed of a variety of structures that can respond to the vertical shear force.

In addition, in one embodiment, the lower end of the connection core 130, that is, the front end in the advancing direction when the PC house 120 is assembled may be formed to be tapered. This structure facilitates the insertion work of the connection core 130 for the pile socket 140 to be described later when the PC house 120 is assembled.

In one embodiment, the connection core 130 may be provided through the core hole 122 formed in the bottom of the PC house 120, through the core support plate 134 having a larger diameter than the core hole 122 It may be fixed to the PC house 120.

Here, the core hole 122 may be formed with a diameter larger than the diameter of the connection core 130 so that the filler (g) to be described later into the space between the connection core 130 and the core hole 122 is injected, In this case, an injection hole 136 through which the filler g may be injected may be formed in the core support plate 134.

On the other hand, the pile socket 140 is coupled to the head of the pile 110, and has a vertical hole in which the connection core 130 is inserted.

In one embodiment, the pile socket 140 may be composed of a socket body 142, a pile connecting portion 144 and the socket support plate 146. Here, the pile connecting portion 144 is formed at the lower end of the socket body 142 is coupled to the pile 110 and can support the socket body 142 from the pile 110, the socket support plate 146 is a socket It is composed of a plate formed along the rim on the top of the body 142 can stably support the PC house 120.

The pile socket 140 may be coupled to the head of the pile 110 such that the socket body 142 is vertical. At this time, the hole formed in the pile socket 140 is inserted into the connection core 130 is vertical.

In one embodiment, when the file 110 is installed inclined, the head and the file connecting portion 144 of the inclined file 110 may be coupled at an angle to each other so that the socket body 142 is vertical, combined Welding may be used for the method.

 At this time, by processing the file connecting portion 144 it can adjust the angle with the file 110 and the height of the socket body 142. As a result, even when a construction error of the pile 110 occurs and the head of the pile 110 does not have a pre-designed angle and height, the height of the socket body 142 is designed in advance by processing the pile connecting portion 144. Can be set to.

In addition, in one embodiment, the hole into which the connection core 130 formed in the pile socket 140 is inserted may be formed to have a diameter larger than that of the connection core 130. Through this, even when a construction error of the pile 110 occurs, the free space between the connection core 130 and the pile socket 140 may absorb the construction error even when the head of the pile 110 is not at a predesigned position. Will be.

On the other hand, for fixing the structure, the filling material (g) is filled in the space between the connecting core 130 and the pile socket 140 in the state in which the connecting core 130 is inserted into the pile socket 140 to integrate both. Can be.

Here, the filler g may be injected through the injection hole 136 formed in the core support plate 134.

The marine support structure 100 according to the embodiment of the present invention as described above has a difficulty in absorbing construction errors because the assembly direction between the PC house 120 and the pile 110 is oblique in the past. The assembly direction between the pile 110 can be changed vertically, and the diameter difference between the connection core 130 and the pile socket 140 can be solved to absorb construction errors.

Through this, there is no need to assemble the PC house 120 by forcibly applying an external force to the installed pile 110, it is possible to ensure the structural stability of the structure without the initial stress generated.

In addition, the marine support structure 100 according to an embodiment of the present invention may be transported by floating on the sea in a state in which the inlet 136 is closed during transport from the sea to the installation position.

Next, with reference to Figures 4a to 4d, it looks at the construction method of the marine support structure according to an embodiment of the present invention. 4A to 4D are schematic diagrams sequentially illustrating a method for constructing a marine support structure according to an embodiment of the present invention.

First, as shown in FIG. 4A, a plurality of piles 110 are driven to the sea floor. Here, the plurality of piles 110 may be installed to be inclined as described in the main embodiment herein.

After installation of the pile 110 is completed, as shown in FIG. 4B, the pile socket 140 is coupled to the head of the pile 110. In this case, the height of the upper end of the pile socket 140 may be adjusted to a predesigned height through the head cleaning operation on the upper end of the pile 110.

After the installation of the pile socket 140 is completed, as shown in FIG. 4C, the PC house 120 is mounted on the pile socket 140.

After the mounting of the PC house 120 is completed, as shown in FIG. 4D, the filling material g is filled between the pile socket 140 and the connection core 130, and the filling material g is filled thereafter. Concrete C is poured into the interior of 120.

As such, when the construction of the lower structure and the PC house 120 is completed, the upper structure (for example, the tower of the offshore wind turbine) may be constructed on the PC house 120.

On the other hand, in the present specification has been described an embodiment in which the support structure of the present invention is applied to the sea, it is noted that the support structure of the present invention can be applied to all water, such as rivers, lakes, not limited to the sea.

While the present invention has been particularly shown and described with reference to particular embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims I would like to make it clear.

100: offshore support structure 110: pile
120: PC house 122: core hole
130: connection core 132: shear connector
134: core support plate 136: injection hole
140: file socket 142: socket body
144: pile connection portion 146: socket support plate
150: superstructure
C: Concrete
g: filler

Claims (12)

A plurality of files installed on the sea floor;
A PC house supported by the pile and having an upper structure installed thereon;
A connection core corresponding to the plurality of piles one-to-one and protruding vertically from the bottom of the PC house; And
A pile socket coupled to the head of the pile and having a vertical hole in which the connection core is inserted;
/ RTI >
The pile is installed to be inclined, the pile socket is vertically coupled at the head of the inclined pile,
The connection core is composed of a steel penetrating the bottom from the inside of the PC house, the outer peripheral surface of the connection core is further provided with a shear connection material,
The connection core may be provided through the core hole formed in the bottom of the PC house, is fixed to the PC house through the core support plate,
The hole of the pile socket into which the connection core is inserted is filled with a filler for joining the connection core and the pile socket,
Concrete is poured in the interior of the PC house, the connection core is an offshore support structure, characterized in that the integrated with the concrete poured in the PC house. delete delete The method of claim 1,
The hole formed in the pile socket is a marine support structure, characterized in that formed with a larger diameter than the connection core. delete The method of claim 1,
Marine support structure, characterized in that the core support plate is formed with an injection hole through which the filler can be injected. delete The method of claim 1,
The head of the pile socket is a marine support structure, characterized in that further provided with a support plate in contact with the bottom of the PC house. delete Installing a plurality of files on the seabed;
Coupling a pile socket having a vertical hole to the head of the pile; And
Inserting the connection core into the pile socket on the pile socket by a PC house having a connection core protruding downwardly perpendicularly to the bottom surface in a one-to-one correspondence with the plurality of piles;
A method for constructing a marine support structure, comprising constructing the marine support structure according to any one of claims 1, 4, 6, and 8. The method of claim 10,
After the PC house mounting step,
Filling a filler between the pile socket and the connection core; And
Pouring concrete into the PC house;
Marine support structure construction method further comprising a. The method of claim 10,
The pile construction method of the offshore support structure, characterized in that installed to be inclined.

Images