KR20140096904A - Supporting structure for upper deck structure of marine structure - Google Patents

Abstract

Disclosed is an upper deck structure of a maritime structure. The upper deck structure of a maritime structure according to an embodiment of the present invention includes an upper deck structure main body installed on an upper deck; and a support frame prepared on the upper deck to support the base of the upper deck structure main body. The support frame includes a concrete placing unit prepared on the upper deck to place and cure concrete; and a coupling unit for coupling the upper deck structure main body to the concrete cured by the concrete placing unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an upper deck structure for an offshore structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper deck structure of an offshore structure, and more particularly, to an upper deck structure of an offshore structure that can facilitate the installation of the upper deck structure.

In general, an offshore structure refers to a structure and a ship that are used in a floating state at sea where a flow occurs.

For example, offshore structures include marine structures such as LNG FPSO (Floating, Production, Storage and Offloading) and LNG FSRU (Floating Storage and Regasification Unit), as well as vessels such as LNG carriers and LNG RV (LNG Regasification Vessel) have.

Here, the LNG FPSO is an offshore structure used for drilling the seabed to produce natural gas, storing the produced natural gas directly in the sea and storing it in the storage tank, and transferring the LNG stored in the storage tank to the LNG transport if necessary .

In addition, the LNG FSRU is an offshore structure that stores LNG offshore from offshore LNG carriers in storage tanks, and then vaporizes LNG as needed to supply to offshore customers.

Such an offshore structure is provided with mooring equipment, various crane, apparatuses for producing or refining gas or oil on the upper deck, and various types of support frames for effectively supporting the main body of the upper deck structure .

For example, when installing the upper deck structure main body on the upper deck, a seat on which the upper deck structure main body is seated is provided on the upper deck, and additional reinforcement is provided depending on the position of the upper deck on which the upper deck structure main body is installed There is a problem that the installation work is complicated when the upper deck supporting body is installed such as a seat is further provided and a stiffener for supporting the upper deck is further disposed.

[Patent Document 1] Korean Patent Laid-Open No. 10-2012-0077983 (Daewoo Shipbuilding & Marine Engineering) 2012.07.10. open

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an upper deck structure for an offshore structure capable of easily installing a main body of an upper deck structure on an upper deck, .

According to an aspect of the present invention, there is provided an upper deck structure body installed on an upper deck; And a support frame provided on the upper deck for supporting a lower portion of the upper deck structure body, wherein the support frame includes a concrete pouring unit provided on the upper deck, the concrete pouring unit cured by pouring concrete therein; And an engaging unit for engaging the upper deck structure body with the concrete cured in the concrete pouring unit, can be provided on the upper deck structure of the offshore structure

The concrete pouring unit may include: an accommodating portion provided on the upper deck and curing the concrete by curing the concrete; And a reinforcing portion provided inside the receiving portion and reinforcing a coupling force between the upper deck and the concrete.

The receiving portion includes an opening formed in the upper deck; And a chamber which is provided inside the upper deck and communicates with the opening to cure the concrete.

The chamber may be formed such that the cross-sectional area in the horizontal direction increases from the opening to the bottom.

Wherein the reinforcing portion includes at least one first reinforcing member disposed on a bottom surface of the chamber in one direction of the chamber; And at least one second reinforcing member disposed on a bottom surface of the chamber in the other direction of the chamber, wherein the at least one first reinforcing member and the at least one second reinforcing member are arranged in a grid pattern Can be crossed.

Wherein the at least one first reinforcing member comprises: an upper flange; And a web member having one end coupled to the upper flange and the other end coupled to a bottom surface within the chamber.

Wherein the at least one second reinforcement member supports sidewalls inside the chamber such that both ends of the at least one second reinforcement member are located in the chamber interior along the height direction of the chamber to prevent deformation of the chamber by the concrete poured into the chamber. As shown in FIG.

The reinforcing portion is disposed on the bottom surface of the chamber so as to intersect the at least one second reinforcing member and supports the side wall inside the chamber so that the chamber is deformed by the concrete placed in the chamber And at least one third reinforcing member having both ends thereof coupled to the side wall of the chamber along the height direction of the chamber.

The concrete pouring unit may further include a cushioning portion provided on the bottom and sidewalls of the chamber to prevent mutual interference between the cured concrete and the upper deck.

Embodiments of the present invention can easily install the upper deck structure main body on the upper deck by connecting the upper deck structure main body to the cured and cured concrete by placing the concrete on the upper deck, This can save costs.

1 is a perspective view showing an installation state of an upper deck structure according to an embodiment of the present invention.
2 is a perspective view illustrating a concrete pouring unit according to an embodiment of the present invention.
3 is a sectional view taken along line BB of Fig.
FIG. 4 is a plan view of a concrete pouring unit according to an embodiment of the present invention, viewed from a direction C in FIG.
5 is an enlarged view of a portion A in Fig.
6 and 7 are front views illustrating a method of installing an upper deck structure according to an embodiment of the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

An offshore structure according to an embodiment of the present invention includes a ship, a structure, and the like which are floated on the sea where the flow occurs.

FIG. 1 is a perspective view showing an installation state of an upper deck structure according to an embodiment of the present invention, FIG. 2 is a perspective view showing a concrete pouring unit according to an embodiment of the present invention, FIG. 3 is a cross- FIG. 4 is a plan view showing a concrete pouring unit according to an embodiment of the present invention, as viewed from the direction C in FIG. 2, and FIG. 5 is an enlarged view of a portion A in FIG.

1 to 5, an upper deck structure of an offshore structure according to an embodiment of the present invention includes an upper deck structure body 130 installed on an upper deck 110, And a support frame 200 for supporting a lower portion of the upper deck structure body 130.

The upper deck 110 of the offshore structure is provided with a plurality of upper deck structure bodies 130 such as mooring equipment, various crane, pump, and winch.

The upper deck structure main body 130 can be easily installed on the upper deck 110 and the upper deck structure main body 130 A support frame 200 obtained by curing concrete on the upper deck 110 is provided.

2 to 5, the supporting frame 200 according to the present embodiment includes a concrete pouring unit 210, which is provided on the upper deck 110 and is cured by pouring concrete, an upper deck structure body 130, And a coupling unit 250 that couples the concrete pouring unit 210 to the concrete cured in the concrete pouring unit 210.

The concrete pouring unit 210 serves as a mold for curing the concrete on the upper deck 110. [

The concrete pouring unit 210 includes a receiving part 220 provided on the upper deck 110 for curing concrete by pouring the concrete thereinto and a cowling 220 provided inside the receiving part 220 for connecting the upper deck 110 and concrete, And a cushioning part 240 provided in the accommodating part 220 to prevent mutual interference between the cured concrete and the upper deck 110. The reinforcing part 230 reinforces the reinforcing part 230,

The receiving portion 220 serves as a frame in which concrete is poured.

The receiving part 220 includes an opening 221 formed in the upper deck 110 and a chamber 223 provided in the upper deck 110 and communicating with the opening 221 to cure the concrete.

The concrete is poured into the chamber 223 through the opening 221 and then cured.

The concrete cured inside the chamber 223 is combined with the upper deck structure body 130 and serves as a seat for supporting the lower portion of the upper deck structure body 130.

The concrete cured in the chamber 223 can be prevented from being damaged even if the upper deck 110 is deformed such as hogging and sagging movements caused by movement of the hull, that is, imbalance of internal load and buoyancy of the hull. 223 should not protrude from the upper deck 110.

Therefore, the chamber 223 is formed so as to increase the cross-sectional area in the horizontal direction in the opening portion 221 in the bottom face direction.

2 and 3, the chamber 223 is formed so that the cross-sectional area in the horizontal direction on the side of the opening 221 is smaller than the cross-sectional area in the horizontal direction on the bottom surface of the chamber 223.

3, the chamber 223 may be formed in a trapezoidal shape in which the cross-sectional area in the horizontal direction increases from the opening 221 to the bottom surface direction, but the present invention is not limited thereto. Concrete cured in the chamber 223 may be formed in an opening 221, the shape of the chamber 223 is not limited.

The reinforcement 230 prevents the deformation of the chamber 223 and reinforces and strengthens the coupling force between the concrete and the upper deck 110.

The reinforcing portion 230 includes at least one first reinforcing member 231 disposed on one side of the chamber 223 on the bottom surface of the chamber 223 and a second reinforcing member 231 disposed on the bottom surface of the chamber 223 And at least one second reinforcing member 235 disposed in the direction of the second reinforcing member 235.

At least one first reinforcing member 231 is disposed in one direction of the chamber 223, that is, in the longitudinal direction (X-axis direction).

As shown in FIGS. 2 to 4, a plurality of first reinforcing members 231 may be spaced apart from each other in the longitudinal direction of the chamber 223.

The first reinforcing member 231 includes an upper flange 232 and a web member 233 having one end coupled to the upper flange 232 and the other end coupled to the bottom surface of the chamber 223.

Shaped chamber 223 in order to prevent the concrete from protruding to the upper deck 110 even when the upper deck 110 is deformed by the movement of the hull or the like when the concrete is cured in the chamber 223, The upper flange 232 limits the upward and downward movement of the cured concrete.

That is, since the concrete is cured in the form of being hooked on the upper flange 232, the cured concrete is limited in the vertical direction movement, and the movement in the width direction (Y axis direction) of the chamber 223 by the web member 233 is also Is limited.

As such, the first reinforcing member 231 strengthens the bonding force between the cured concrete and the upper deck 110.

At least one or more second reinforcing members 235 are disposed in the other direction of the chamber 223, that is, in the width direction (Y-axis direction). In this embodiment, the first reinforcement member 231 and the second reinforcement member 235 intersect each other so as to be arranged in a lattice form on the bottom surface inside the chamber 223.

Both ends of the second reinforcing member 235 are coupled to the side wall inside the chamber 223.

In order to prevent the chamber 223 from being deformed by the concrete placed in the chamber 223, both end portions of the second reinforcing member 235 extend along the height direction of the chamber 223, Lt; / RTI >

For example, both end portions of the second reinforcing member 235 extend from the lower end of the side wall inside the chamber 223 to the opening portion 221 and are coupled.

2, the second reinforcing member 235 is not limited to the partition wall disposed in the width direction of the chamber 223, but the second reinforcing member 235 is not limited to the upper flange And a web member (not shown) having one end coupled to the upper flange and the other end coupled to the bottom surface within the chamber 223.

The reinforcing portion 230 is disposed on the bottom surface of the chamber 223 so as to intersect with at least one second reinforcing member 235 and supports the side wall inside the chamber 223, And at least one third reinforcing member 237 coupled to the side wall of the chamber 223 along the height direction of the chamber 223 so as to prevent the chamber 223 from being deformed by the poured concrete .

In this embodiment, the third reinforcing member 237 and the second reinforcing member 235 intersect each other so as to be arranged in a lattice form on the bottom surface inside the chamber 223.

Both ends of the third reinforcing member 237 are coupled to the side wall inside the chamber 223.

In order to prevent the chamber 223 from being deformed by the concrete placed in the chamber 223, both end portions of the third reinforcing member 237 extend along the height direction of the chamber 223, Lt; / RTI >

For example, both end portions of the third reinforcing member 237 extend from the lower end of the side wall inside the chamber 223 to the opening portion 221 and are coupled.

2, the third reinforcing member 237 is shown as a partition wall arranged in the lengthwise direction of the chamber 223, but the third reinforcing member 237 is formed as an upper flange (not shown) like the first reinforcing member 231, And a web member (not shown) having one end coupled to the upper flange and the other end coupled to the bottom surface within the chamber 223.

Further, when both ends of the first reinforcing member 231 are coupled to the side wall inside the chamber 223 along the height direction of the chamber 223, the third reinforcing member 237 can be omitted.

The buffering part 240 is provided on the bottom and side walls of the chamber 223 to prevent mutual interference between the concrete cured in the chamber 223 and the upper deck 110.

That is, the buffering part 240 is formed by the concrete cured inside the chamber 223 by the movement of the hull such as hogging and sagging motion caused by the unbalance of the internal load and the buoyancy of the hull, (110) from directly colliding with each other.

When the concrete is placed in the chamber 223, the buffer portion 240 is positioned between the side wall and the bottom of the chamber 223 and the concrete.

The buffering part 240 may be made of a vibration-proof or elastic member such as rubber, silicone, epoxy or the like so as to prevent direct contact between the cured concrete and the upper deck 110.

The coupling unit 250 includes a bolt member 251 for bolting the upper deck structure body 130 to the cured concrete and a nut member 253 for coupling to the bolt member 251.

The concrete is poured and cured in the chamber 223 through the opening 221 formed in the upper deck 110 and then the upper deck structure body 130 is installed on the upper surface of the cured concrete.

In order to facilitate the coupling of the upper part of the cured concrete and the upper deck structure body 130, the cured concrete and the upper deck structure body 130 are bolted to each other in this embodiment.

That is, an anchor bolt or the like is installed on the upper part of the concrete on which the upper deck structure body 130 is to be seated, the upper deck structure body 130 is seated on the upper part of the concrete and the nut is engaged with the anchor bolt, It is possible to facilitate the installation work of the door 130.

A method of installing the upper deck structure 130 of an offshore structure according to an embodiment of the present invention will now be described.

6 and 7 are front views illustrating a method of installing an upper deck structure according to an embodiment of the present invention.

Referring to FIG. 6, a support frame 200 for supporting the lower portion of the upper deck structure body 130 is installed on the upper deck 110.

The supporting frame 200 is provided with a chamber 223 inside the upper deck 110 and a first reinforcing member 231, a second reinforcing member 235 and a third reinforcing member 237).

The concrete is poured and cured inside the chamber 223 through the opening 221 formed in the upper part of the chamber 223.

7, the lower part of the upper deck structure body 130 is seated on the upper part of the cured concrete, and then the upper deck structure body 130 is bolted to the cured concrete.

As described above, a seat capable of supporting the upper deck structure body 130 by curing concrete in the upper deck 110 is provided, and the upper deck structure body 130 is bolted to the upper part of the cured concrete. So that the upper deck structure body 30 can be easily installed on the upper deck 110.

Since the upper deck structure body 130 can be bolted to the cured concrete irrespective of the position of the upper deck 110 where the upper deck structure body 130 is installed, It is possible to omit a separate additional sheet to be installed according to the position where the sheet is conveyed.

Since the seat for supporting the upper deck structure body 130 is cured by concrete, there is no need for a separate reinforcing means for supporting the upper deck structure body 130. In the case of installing separate reinforcing means It is possible to reduce the cost of painting and the like.

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. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110: upper deck 130: upper deck structure body
200: support frame 210: concrete pouring unit
220: accommodating portion 221: opening
223: chamber 230: reinforced portion
231: first reinforcing member 232: upper flange
233: web member 235: second reinforcing member
237: third reinforcing member 240: buffering part
250: coupling unit 251: bolt member
253: Nut member

Claims (9)

An upper deck structure main body installed on the upper deck; And
And a support frame provided on the upper deck for supporting a lower portion of the upper deck structure body,
The support frame includes:
A concrete pouring unit provided on the upper deck and cured by pouring concrete; And
And a coupling unit coupling the upper deck structure body to the concrete cured in the concrete pouring unit. The method according to claim 1,
The concrete pouring unit includes:
A receiving part provided on the upper deck for curing the concrete; And
And a reinforcing portion provided inside the accommodating portion and reinforcing a coupling force between the upper deck and the concrete. 3. The method of claim 2,
The receiving portion includes:
An opening formed in the upper deck; And
And an upper deck structure disposed inside the upper deck and communicating with the opening to cure the concrete. The method of claim 3,
The chamber may comprise:
Wherein the upper deck structure of the marine structure is formed such that the cross-sectional area in the horizontal direction in the opening direction is increased in the bottom direction. The method of claim 3,
The reinforcing portion
At least one first reinforcing member disposed on a bottom surface of the chamber in one direction of the chamber; And
And at least one second reinforcing member disposed on the bottom surface of the chamber in the other direction of the chamber,
Wherein the at least one first reinforcing member and the at least one second reinforcing member intersect with each other so as to be arranged in a lattice form. 6. The method of claim 5,
Wherein the at least one first reinforcing member comprises:
An upper flange; And
And a web member having one end coupled to the upper flange and the other end coupled to a bottom surface within the chamber. 6. The method of claim 5,
Wherein the at least one second reinforcing member comprises:
An upper deck of an offshore structure that supports sidewalls inside the chamber and has opposite ends coupled to sidewalls inside the chamber along a height direction of the chamber to prevent deformation of the chamber by the concrete placed in the interior of the chamber; structure. 8. The method of claim 7,
The reinforcing portion
A plurality of second reinforcing members disposed on the bottom surface of the chamber so as to intersect with the at least one second reinforcing member to support sidewalls inside the chamber and to prevent the chamber from being deformed by the concrete placed in the chamber, Further comprising at least one third reinforcing member coupled to a side wall of the chamber along a height direction of the chamber. The method of claim 3,
The concrete pouring unit includes:
Further comprising a cushioning portion provided on a bottom surface and side walls of the chamber to prevent mutual interference between the cured concrete and the upper deck.

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