KR20140140440A - Hybrid support structure and method for installing the same - Google Patents

Abstract

One aspect of the present invention comprises: a mono pile (20); a plurality of pin piles arranged in the periphery of the mono pile (20); and a jacket (40) for partially receiving each of the mono pile (20) and the pin piles (30) so as to integrally connecting the same. Another one aspect of the present invention comprises: (a) a step for mounting a mono pile (20); (b) a step for fixing the central pipe (42) of the jacket (40) to the upper end of the mono pile (20); (c) a step for providing the pin piles (30) through the satellite pipe (44) of the jacket (40); and (d) a step for mounting a tower (50) on the upper ends of the mono pile (20) and the pin piles (30). Therefore, the lower structure of a marine structure such as an offshore wind power generation facility or the like can maintain solid strength even though the lower structure is made by a plurality of small piles. Therefore, construction using small equipment can be readily carried out, thereby improving economic feasibility.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hybrid support structure,

The present invention relates to a hybrid support structure and a method of constructing the hybrid support structure. More particularly, the present invention relates to a hybrid support structure and a method of constructing the hybrid structure. The hybrid structure includes a plurality of small files and a jacket structure for accommodating them, Support structure and a method of constructing the same.

In addition to the required stiffness, the design conditions for offshore wind power include installation and accessibility, compatibility with installation sites, and minimization of installation and maintenance costs. Mono file, one of the representative bases of offshore wind power, is the most common method applicable to depths of 25m, and is easy to manufacture and has high economical efficiency such as no need for submarine ground clearance. Korean Patent Laid-Open Publication No. 2013-0047950 and Korean Patent Registration No. 1177396 are known as prior patents which can be referred to in connection with this.

According to the former patent, an upper support structure for mounting a facility for power generation on the upper part; An intermediate support structure connected to a lower portion of the upper support structure and having a plurality of hollow guide members in the form of a jacket structure, the hollow guide members being hollow on the outside of the jacket structure; And a lower support structure composed of a plurality of hollow lower support members fitted to the hollow guide member and fixed to the sea floor. Accordingly, it is expected that the time required for installation in the sea is reduced and the accuracy of connection between support structures is secured.

According to the latter prior patent, a base structure including a vertical column member, a lateral leg member extending from the column member, and a bucket member provided at an end of the lateral leg member is impregnated in water and installed on the undersurface As a construction method, an underwater installation device is coupled to the foundation structure, is impregnated in water and held in a horizontal state, and a pile member is penetrated through the bucket member and penetrated into the bottom of the seabed, Remove it. Accordingly, even if the seabed ground is fragile, the effect of maintaining the originally installed position stably and firmly is expected.

However, in the above-mentioned prior art, the method of using the lower support structure or the lateral leg member requires a relatively large equipment, which is disadvantageous in that it is costly to apply to the sea bed and thus the economical efficiency is weakened.

1. Korean Patent Laid-Open Publication No. 2013-0047950 "Supporting structures of offshore wind power generators and their installation methods" (Publication date: May 9, 2013) 2. Korean Registered Patent No. 1177396 entitled "Method of Construction of Spiral File Fixed Foundation Structure" (Published on Aug. 27, 2012)

It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a structure of a marine structure such as an offshore wind power generation facility, which comprises a plurality of small files and a jacket structure for accommodating them, To thereby improve the economical efficiency and a method of constructing the hybrid support structure.

It is another object of the present invention to enhance rigidity while ensuring ease of installation even when reinforcing a mono-file support structure of an existing offshore structure.

In order to achieve the above object, according to one aspect of the present invention, there is provided a mono file; A plurality of pin files disposed around the mono file; And a jacket for partially receiving and partially connecting the mono file and the pin file, respectively.

In addition, according to the present invention, the jacket includes a central tube for accommodating a mono-file, a satellite tube for accommodating a plurality of pin files, and a connecting rod for supporting a satellite tube radially around the central tube.

According to another aspect of the present invention, there is provided a method of manufacturing a mono file, comprising the steps of: (a) installing a mono file 20; (b) fixing the center tube of the jacket to the top of the mono file; (c) installing a pin file through a satellite tube of the jacket; And (d) installing a tower at the top of the mono file and the pin file.

According to the present invention, in the step (b), grouting is performed between the mono-file and the jacket and fixed.

Further, according to the present invention, the step (c) is characterized by excavating and inserting through the inside of the pin pile.

According to the present invention, in the step (c), the inside of the pin file is subjected to a grouting process, and a grouting process is performed between the pin file and the jacket to fix the pin file.

According to another aspect of the present invention, there is provided a method for processing a mono file, comprising: (a) correcting a mono file; (b) fixing the center tube of the jacket to the top of the mono file; And (c) installing a pin file through a satellite pipe of the jacket.

As described above, according to the present invention, it is possible to construct a substructure of an offshore structure such as an offshore wind power plant with a plurality of small files while maintaining a rigid rigidity and to facilitate construction with small equipment, thereby improving economical efficiency.

Brief Description of the Drawings Fig. 1 is a diagram showing a support structure according to the present invention in an installed state
Figure 2 is a perspective view of a support structure according to the present invention;
Figure 3 is a perspective view of a support structure according to the present invention,
4 is a schematic view showing a method of constructing a support structure according to the present invention;
Figure 5 is a schematic cross-sectional view of a support structure according to the present invention;
6 is a view showing a configuration in which a supporting structure according to the present invention is divided to reinforce a mono file supporting structure

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

According to one aspect of the present invention, there is provided a structure for supporting an offshore structure such as an offshore wind power generation facility. The support structure of the monofilament type is desirably provided in a shallow sea composed of the water 11, the seabed ground 13, and the rock 15, but is not limited thereto.

According to the present invention, a plurality of pin files (30) are arranged around a mono file (20). The mono-pile 20 is a pile structure using a steel pipe having a diameter of 3 to 6 m, and the pin pile 30 is a pile structure using a steel pipe having a diameter of about 1 m. The number of the pin files 30, the distance between the mono file 20 and the pin piles 30, and the like vary depending on the capacity of the facility installed on the upper side. 2 illustrates a structure in which eight pin piles 30 are arranged around a mono file 20.

According to the present invention, the jacket 40 partially accommodates the mono-pile 20 and the pin pile 30 and integrally connects them. The jacket 40 is separately formed on the ground using a plurality of steel pipes, transferred to the sea, and connected to the mono-pile 20 and the pin pile 30, respectively, and integrated. The jacket 40 is mostly exposed in the water 11 and exposed to the sea surface at the upper end and buried in the seabed ground 13 at the lower end.

The jacket 40 includes a center tube 42 for receiving the monofilaments 20, a satellite tube 44 for receiving the plurality of fin files 30, a center tube 42 (46) radially supporting the satellite tube (44) in the periphery of the satellite tube (44). The center pipe 42 is formed using a steel pipe having a larger diameter than the monofilament 20 and the satellite pipe 44 is formed using a steel pipe having a diameter larger than that of the pin pile 30. [ The connecting rod 46 connecting the central pipe 42 and the satellite pipe 44 may use steel pipes but it is not necessary to make them communicate with each other. A plurality of satellite tubes 44 are arranged radially with respect to a single center tube 42, but they are combined through a separate operation at sea as described later.

On the other hand, as shown in FIG. 6, the jacket 40 of the present invention may be divided into two to eight. The divided jacket 40 is joined in such a manner that a flange 42a is formed at the connecting portion of the center tube 42 and is fastened with the bolt 48. [

As another aspect of the present invention, there is proposed a construction method for reinforcing an offshore structure supporting structure such as a new installation or a previously installed offshore wind power generation facility.

In the step (a) of the present invention, the mono-pile 20 of the above-described steel pipe pile structure is installed during the new installation. It is preferable that the monofilaments 20 pass through the seabed ground 13 to reach the rock 15 in the manner of hatching or excavation.

In the step (b) of the present invention, a process of fixing the center tube 42 of the jacket 40 to the upper end of the monofilament 20 is performed. The jacket 40 has a structure in which a plurality of satellite pipes 44 are integrally coupled to the periphery of the center pipe 42 through a connecting rod 46 and is manufactured on the land and is transported to the installation site using a barge or the like. The jacket 40 is lowered from the top of the mono-pile 20 so that the center tube 42 receives the upper end of the mono pile 20. [ When the jacket 40 reaches the set position, it is fixed on the mono-pile 20 with a bolting or a usable tack.

At this time, grouting is performed between the mono-pile 20 and the jacket 40 in step (b) and fixed. The composition of the grouting material is mainly composed of an inorganic material rather than an organic material, and it is preferable to adjust the contents of cement, coarse material, expanding material, fluidizing agent, and reaction control agent so as to have compression strength and water resistance, as well as injectability, fluidity and separation resistance. When the grouting material is charged at a high pressure through the gap between the mono-pile 20 and the jacket 40, the filled grouting material is cured and exhibits high bonding strength.

On the other hand, after the mono-pile 20 is installed or after the jacket 40 is installed, the operator and the equipment supporting stand 25 are installed. The cradle (25) is highly utilized in a small-scale construction that can not mobilize a grouting dedicated work line equipped with a grouting equipment. If a part of the holder 25 is structured to be easy to separate and connect, the size and shape of the holder 25 can be changed according to the progress of the process, thereby reducing the worker's motion.

In the step (c) of the present invention, the pin file 30 is installed through the satellite pipe 44 of the jacket 40. A plurality of pin piles (30) are inserted into each satellite pipe (44) and put into the seabed ground (13) by using a vibro hammer or the like. The order of putting the plurality of pin files 30 is determined according to the conditions of the installation place and the weather conditions. In some cases, since a plurality of pinfiles 30 can be installed at the same time by supplying a plurality of equipments, it contributes greatly to the reduction of the construction time.

At this time, in step (c), it is preferable to excavate through the inside of the pin pile 30 and insert it. The auger of the excavation equipment is introduced into the pin 30 to excavate the rock 15 and the lower end of the pin 30 is introduced into the augment. When both the mono-pile 20 and the pin pile 30 are inserted into the rock 15, high rigidity is exerted.

Meanwhile, in the step (c), the inside of the pin pile 30 is subjected to a grouting process, and grouting is performed between the pin pile 30 and the jacket 40 and fixed. The grouting material is the same as the above-mentioned step (b), but when the clearance between the fin 30 and the jacket 40 is narrow, it is necessary to adjust the content to improve the injection property and the flowability. The strength of the pin pile 30, the coupling force between the pin pile 30 and the jacket 40, and the coupling strength between the pin pile 30 and the rock base 15 are enhanced by curing the grouting material with high pressure.

In step (d) of the present invention, a tower 50 is installed on the top of the mono-file 20 and the pin-file 30. In an offshore wind turbine offshore structure, the tower 50 includes a head structure including power generation equipment.

As described above, since the size of the mono-file 20 and the pin-shaped file 30 can be reduced, it is possible to construct the apparatus with a compact equipment, thereby greatly reducing the construction cost.

As another aspect of the present invention, a construction method for reinforcing a previously installed offshore structure supporting structure is proposed.

Step (a) of the present invention is a process of correcting the monolith 20 supporting structure inclined by an external force. In addition to self weight, offshore structures cause subsidence and deformation of the ground due to repeated loads caused by wave load and wind load, resulting in tilting of the monofilament (20). If the conventional monofilament 20 is not provided with the jacket 40 described above, it is necessary to correct it to return to the upright state.

The step (b) of the present invention is a method of assembling the monofilament 20 with the center of the core pipe 42 of the jacket 40 at the side of the monofilament 20, And the step (c) installs the pin file 30 through the satellite pipe 44 of the jacket 40. [0050] The process of grouting between the mono-pile 20 and the jacket 40, inserting the pin-pile 30 and putting the grouting material is the same as that of Fig.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

11: Underwater 13: Submarine ground
15: Rock 20: Mono file
25: Holder 30: Pin File
40: jacket 42: center tube
44: satellite tube 46: connecting rod
50: Towers

Claims (7)

A mono file 20;
A pin file (30) arranged in plural around the mono file (20); And
And a jacket (40) partially receiving and integrally connecting the mono-pile (20) and the pin pile (30). The method according to claim 1,
The jacket 40 includes a central tube 42 for receiving the monofilaments 20, a satellite tube 44 for receiving the plurality of pinfiles 30 and a satellite tube 44 And a linkage (46) for radially supporting the support structure (46). (a) installing a mono file (20);
(b) fixing the center tube (42) of the jacket (40) to the top of the monofilament (20);
(c) installing pin file (30) through satellite tube (44) of jacket (40); And
(d) installing a tower (50) at the top of the mono-pile (20) and the pin pile (30). The method of claim 3,
Wherein the step (b) includes grouting between the mono-pile (20) and the jacket (40) to fix the mono-pile (20) and the jacket (40). The method of claim 3,
Wherein the step (c) comprises drilling through the inside of the fin (30) and inserting the fin (30). The method of claim 3,
Wherein the inner surface of the pin pile (30) is subjected to a grouting treatment and a grouting treatment is performed between the pin pile (30) and the jacket (40) in the step (c). (a) correcting the monopile (20) support structure inclined by an external force;
(b) The monofilament 20 is fixed on the monofilament 20 by using bolts or the like around the monofilament 20 with the half or differentiated jacket 40 centered on the center pipe 42 of the jacket 40 ; And
(c) The pin file 30 is installed through the satellite pipe 44 of the jacket 40, grouting is performed between the mono file 20 and the jacket 40, the pin file 30 is inserted, And a step of injecting and fixing the ash to the hybrid support structure.

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