KR20130023658A - Offshore structure and structure method thereof - Google Patents

Abstract

PURPOSE: A marine construction and a construction method thereof are provided to reduce the quantity of concrete required for the manufacture of a marine construction, improve supporting force by raising self-rigidity, and reduce the installation time and efforts of marine work by reducing the weight of a marine structure. CONSTITUTION: A marine structure includes a concrete tube(100), multiple column members(200), multiple horizontal members(300), and multiple pile mounting portions(400). The concrete tube has a hollow. The multiple column members are formed by a concrete material and are arranged in a slope so that a hollow member is reclaimed inside to form a hollow and supports the tube. The multiple horizontal members are installed along the horizontal direction between the multiple column members, are formed by a concrete material, and include a hollow member inside to form a hollow. The multiple pile mounting portions are installed in the contact end part of a column member and a horizontal member and includes a pile mounting hole(410) in the center.

Description

Offshore Structure and Construction Method {OFFSHORE STRUCTURE AND STRUCTURE METHOD THEREOF}

TECHNICAL FIELD The present invention relates to the field of construction and, more particularly, to offshore structures.

In general, an offshore structure is a structure that is installed on the ground in order to install various objects on the sea.

These offshore structures are always subjected to external forces due to waves, tides, winds and the like. As a result, these offshore structures are often formed of a concrete material resistant to external force and resistant to corrosion.

1 is a cross-sectional view showing the structure of a conventional offshore structure.

As shown in FIG. 1, a cone-shaped fall prevention portion 2 is formed at the bottom of the main body 1 so that the main body 1 is not conducted by strong wind, waves, earthquakes, etc. at sea. In order to prevent sliding, the sliding prevention part 3 is formed by sandstone etc.

However, in such a conventional offshore structure, since the entire offshore structure is formed of a concrete material, not only a large amount of concrete is required to manufacture the offshore structure, but also a satisfactory strength or supporting force is not obtained as compared with a large amount of concrete. Has a problem.

In addition, since the entire offshore structure is formed of concrete, there is a problem in that it is not easy to install the offshore structure in the sea as well as it takes a lot of cost and effort to transport the offshore structure to install such offshore structure due to the excessive weight.

The present invention was derived to solve the above problems, by reducing the amount of concrete required to manufacture the offshore structure and increase its own rigidity to improve the bearing capacity and at the same time reduce the weight of the offshore structure to transport it offshore The aim is to present an offshore structure that can save time and effort in installation.

In order to solve the above problems, the present invention is a tubular concrete tube with a hollow formed; Three or more pillar members formed by a concrete material and having a hollow member embedded therein to be inclined to support the concrete tube so as to form a hollow; A plurality of horizontal members are installed along the horizontal direction between the plurality of pillar members so that the plurality of pillar members are spaced apart from each other, and the hollow members are embedded therein so as to be formed by a concrete material and form a hollow. ; A plurality of pile mounting portions provided at contact ends at which the pillar member and the horizontal member are in contact with each other and having pile mounting holes formed at a center thereof; Present a marine structure that includes.

Here, the tension tube may be embedded in the concrete tube in a state in which the tension material is tense by the pretension method along the height direction or may be buried by the post tension.

The tension tube may be embedded in the concrete tube by a post tensioning method along the circumferential direction.

In addition, the hollow member may be formed of steel or synthetic resin material.

In addition, the pillar member or the horizontal member may be buried in a tension state by the pretension method.

One end of the coupling member may be coupled to both ends of the hollow member of the horizontal member, and the other end of the coupling member may be exposed to the outside of the horizontal member and coupled to the pillar member.

In addition, the coupling member may include a steel bar, steel wire.

In addition, the coupling member may be embedded in the horizontal member in a tensioned state by the pretension method.

And, the pillar member is a plurality of hollow members are embedded at intervals along the longitudinal direction, the plurality of hollow members are coupled by an interconnecting portion, one side of the pillar member for coupling the end of the horizontal member A coupling groove is formed, and a coupling member through hole is formed in the coupling groove so that the coupling member penetrates, and the coupling member through hole may be formed in an area where the connection part is formed.

In addition, a fixing member for fixing the end of the coupling member installed through the coupling member through hole may be installed on the other side surface of the pillar member.

In addition, an installation groove may be formed on the other side of the pillar member so that the fixing member is installed.

Further, a plurality of auxiliary pillar members having one end coupled to the outer surface of the concrete tube and the other end coupled to the contact portion of the pillar member and the horizontal member may be disposed on the outer side of the concrete tube and disposed radially.

In addition, three pillar members may be radially inclined downward and three horizontal members may be disposed between the pillar member and the pillar member in a horizontal direction.

In addition, four pillar members may be disposed to be inclined radially downward, and four horizontal members may be disposed between the pillar member and the pillar member in a horizontal direction.

The present invention to solve the problem, the step of manufacturing the marine structure by combining the pillar member and the horizontal member on the ground; Installing the marine structure in the sea so that the pile mounting portion of the pillar member contacts the sea bottom; Mounting a pile in a pile mounting hole of the pile mounting unit, so that a lower end of the pile is embedded in a seabed; It proposes a construction method of the offshore structure comprising a.

The present invention can reduce the amount of concrete required to manufacture the offshore structure and increase its own rigidity to improve the bearing capacity and at the same time reduce the weight of the offshore structure to reduce the time and effort required to install it in the ocean It has an effect.

1 is a plan view showing a structure in which a conventional marine structure is installed on the sea bottom;
2 is a perspective view showing the structure of an offshore structure according to an embodiment of the present invention;
3 is a plan view illustrating a structure in which an offshore structure is installed on a sea bottom according to an embodiment of the present invention;
4 is a projection view showing the projection of the structure of the concrete tube of the marine structure shown in Figure 1,
5 is a cross-sectional view showing a coupling structure of the pillar member and the horizontal member of the marine structure according to an embodiment of the present invention,
Figure 6 is a perspective view showing the structure of an offshore structure according to another embodiment of the present invention.

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

Figure 2 is a perspective view showing the structure of the offshore structure according to an embodiment of the present invention, Figure 3 is a plan view showing a structure in which the offshore structure according to an embodiment of the present invention is installed on the sea bottom, Figure 4 1 is a projection view showing a projected structure of the concrete tube of the marine structure shown in Figure 1, Figure 5 is a cross-sectional view showing a coupling structure of the column member and the horizontal member of the marine structure according to an embodiment of the present invention, Figure 6 A perspective view showing the structure of an offshore structure according to another embodiment of the present invention.

As shown in these figures, the marine structure according to the present invention, the hollow tubular concrete tube 100, the hollow 110 is formed, and the hollow member 220 formed therein to be formed by the concrete material and the hollow 210 is formed. ) Is buried and disposed to be inclined to support the concrete tube 100, the plurality of pillar members 200 and the plurality of pillar members 200, the plurality of pillar members 200, so as to maintain a space between each other. In addition to being installed along the horizontal direction, a plurality of horizontal members 300, the pillar member 200 and the horizontal member (300) is formed of a concrete material and the hollow member 320 is embedded therein so that the hollow 310 is formed. It is configured to include a plurality of pile mounting portion 400 is provided at the contact end 300 is in contact with each other and the pile mounting hole 410 is formed at the center thereof.

Concrete tube 100 is a cylindrical member is formed in the center through which the hollow 110 is inserted and fixed to the steel pipe (1) in which a separate structure is seated.

In the interior of the concrete tube 100, the tension member 120 may be buried in a tensioned state by a pretension method along the height direction thereof, or the tension member 120 may be embedded by post tension.

In addition, the tension member 130 may be embedded by a post-tension method along the circumferential direction inside the concrete tube 100.

The upper and lower outer peripheral surfaces of the concrete tube 100 are provided with a plurality of ring-shaped members 140 to which one end of the pillar member 200 and the auxiliary pillar member 500 is fixed.

Steel pipe (1) is inserted into the hollow 110 of the concrete tube 100, a portion of the area is formed to have a height that can be exposed to the upper side of the sea surface is a separate structure to be installed on the upper surface is seated .

The pillar member 200 is a member disposed to be inclined downward so that one end contacts the side surface of the ring-shaped member 140 and the other end is fixedly coupled to the pile mounting part 400 so as to support the concrete tube 100.

As shown in FIG. 2, three pillar members 200 may be provided in contact with three places on the outer surface of the concrete tube 100, or may be provided so as to face each other as shown in FIG. 6. have.

The pillar member 200 may be formed of a concrete material, and the hollow member 220 buried so that the hollow 210 is formed in the pillar member 200 may be formed of steel or synthetic resin.

In addition, the inside of the pillar member 200 outside the hollow member 220 embedded in the pillar member 200 is provided with a separate tension member 230 buried in a tensioned state by the pretension method.

5, the plurality of hollow members 220 are embedded in the pillar member 200 at intervals along the length direction, and the plurality of hollow members 220 pass through the connection grooves 260. Coupled by 250.

In addition, one side surface of the pillar member 200 is formed with a coupling groove 240 for coupling the end of the horizontal member 300, the coupling groove 240 through the coupling member through hole (240) for the coupling member 340 to pass through ( 270 may be formed, and the coupling member through hole 270 may be formed in a region where the connection part 250 is formed.

And, the other side of the pillar member 200 may be provided with a fixing member 350 for fixing the end of the coupling member 340 installed through the coupling member through hole 270, the pillar member 200 An installation groove 280 may be formed on the other side such that the fixing member 350 is installed.

The horizontal member 300 is a member installed between the pillar member 200 and the pillar member 200 so that the plurality of pillar members 200 maintain a space therebetween, and at one end of the hollow member 320 of the horizontal member 300. One end of the coupling member 340 is coupled, the other end of the coupling member 340 is exposed to the outside of the horizontal member 300 may be coupled to the pillar member 200.

In addition, the coupling member 340 is formed of a material such as steel bar, steel wire, the coupling member 340 is preferably embedded in the horizontal member 300 in a tensioned state by the pretension method.

One end is coupled to the ring-shaped member 140 provided on the outer surface of the concrete tube 100 on the outer side of the concrete tube 100, and the other end is radially coupled to the contact portion of the pillar member 200 and the horizontal member 300. A plurality of auxiliary pillar members 500 may be further installed.

As shown in FIG. 2, the three auxiliary pillar members 500 may also be disposed radially downward inclined like the pillar member 200. As illustrated in FIG. 6, four auxiliary pillar members 500 may be radially inclined downward. have.

Of course, when the pillar member 200 or the auxiliary pillar member 500 is three, three horizontal members 300 are also installed, and when the pillar member 200 or the auxiliary pillar member 500 is four horizontal, Of course, four members 400 are installed.

Pile mounting portion 400 of the pillar member 200 and the horizontal member 300 and the auxiliary pillar member 500 is joined to the end region of the pillar member 200, the horizontal member 300 and the auxiliary pillar member 500 It is provided to embed them therein so that the ends are not exposed to the outside.

The pile mounting hole 410 through which the pile 420 is inserted is formed in the central region of the pile mounting portion 400, and the pile mounting portion 400 has a predetermined height so that the horizontal member 300 can be spaced apart from the sea bottom by a predetermined interval. It is preferably formed to have.

Method for constructing the marine structure according to an embodiment of the present invention having such a configuration on the sea bottom is as follows.

First, after combining the pillar member 200, the horizontal member 300 and the auxiliary pillar member 500 on the ground to manufacture the marine structure, using the offshore crane to install the marine structure in the sea.

Thereafter, the pile 420 is inserted into the pile mounting hole 410 of the pile mounting portion 400, and the lower end of the pile is driven to be embedded in the seabed so that the marine structure is fixed to one side of the sea bottom.

That is, the manufacturing and construction of the offshore structure is not made at sea, but the manufacture of the offshore structure is to be made on the ground, and lifted it to the construction position, the pile 420 in the pile mounting hole 410 of the pile mounting part 400. It is to be installed by the installation method by driving.

In addition, the pile mounting portion 400 may be formed in an appropriate number in consideration of the size and the site situation of the structure.

In addition, after driving the file 420 so that a predetermined length of the upper end of the file 420 protrudes to the upper side of the file mounting portion 400 when inserted into the sea bottom, a predetermined length may be protruded above the file mounting portion 400. Construction of the offshore structure is completed by joining the upper periphery of the upper end of the pile 420 and the pile mounting portion 400.

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 or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: steel pipe 100: concrete tube
110: hollow 120, 130: tension material
140: ring-shaped member 200: pillar member
210: hollow 220: hollow member
230: tension member 240: coupling groove
250: connecting portion 260: connecting groove
270: through hole 280: mounting groove
300: horizontal member 310: hollow
320: hollow member 330: tension member
340: coupling member 400: pile mounting
410: File installation work 420: File
500: auxiliary pillar member

Claims (15)

A tubular concrete tube with a hollow formed therein;
Three or more pillar members formed by a concrete material and having a hollow member embedded therein to be inclined to support the concrete tube so as to form a hollow;
A plurality of horizontal members are installed along the horizontal direction between the plurality of pillar members so that the plurality of pillar members are spaced apart from each other, and the hollow members are embedded therein so as to be formed by a concrete material and form a hollow. ;
A plurality of pile mounting portions provided at contact ends at which the pillar member and the horizontal member are in contact with each other and having pile mounting holes formed at a center thereof;
Offshore structure comprising a. The method of claim 1,
The concrete tube is a marine structure, characterized in that the tension material is buried in a tensioned state by the pre-tension method along the height direction or the tension material is buried by post tension. The method of claim 1,
The concrete tube is a marine structure, characterized in that the tension material is embedded in the circumferential direction by a post-tension method. The method of claim 1,
The hollow member is a marine structure, characterized in that formed by steel or synthetic resin material. The method of claim 1,
The pillar member or the horizontal member is a marine structure, characterized in that the tension member is buried in a tensioned state by the pretension method. The method of claim 5,
One end of the coupling member is coupled to both ends of the hollow member of the horizontal member, the other end of the coupling member is exposed to the outside of the horizontal member, characterized in that coupled to the pillar member. The method according to claim 6,
The coupling member is a marine structure, characterized in that it comprises a steel bar, steel wire. The method according to claim 6,
The coupling member is a marine structure, characterized in that embedded in the horizontal member in a tensioned state by the pretension method. The method according to claim 6,
The plurality of hollow members are embedded in the pillar member at intervals along the longitudinal direction,
The plurality of hollow members are coupled by interconnects,
One side of the pillar member is formed with a coupling groove for coupling the end of the horizontal member,
A coupling member through hole is formed in the coupling groove so that the coupling member penetrates.
The coupling member through-hole is an offshore structure, characterized in that formed in the area where the connection is formed. 10. The method of claim 9,
On the other side of the pillar member offshore structure, characterized in that the fixing member for fixing the end of the coupling member installed through the coupling member through hole is installed. The method of claim 10,
On the other side of the pillar member offshore structure, characterized in that the installation groove is formed so that the fixing member is installed. The method of claim 1,
The outer side of the concrete tube, one end is coupled to the outer surface of the concrete tube, the other end is coupled to the contact portion of the column member and the horizontal member is a marine structure, characterized in that a plurality of auxiliary pillar members are disposed radially. 13. The method according to any one of claims 1 to 12,
Three of the pillar members are disposed to be inclined radially downward and three of the horizontal members are disposed between the pillar member and the pillar member along a horizontal direction. 13. The method according to any one of claims 1 to 12,
Four pillar members are disposed to be inclined radially downward and four horizontal members are disposed between the pillar member and the pillar member along a horizontal direction. A construction method of a marine structure according to any one of claims 1 to 12,
Manufacturing the marine structure by combining the pillar member and the horizontal member on the ground;
Installing the marine structure in the sea so that the pile mounting portion of the pillar member contacts the sea bottom;
Mounting a pile in a pile mounting hole of the pile mounting unit, so that a lower end of the pile is embedded in a seabed;
Construction method of the offshore structure comprising a.

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