KR20120033578A - Anti-deformation device for piperack modules of a marine structure - Google Patents

Abstract

PURPOSE: An apparatus for preventing deformation of a pipe rack structure of a marine structure is provided to prevent increasing a number of members, reduce total weight of a pipe rack structure. CONSTITUTION: An apparatus for preventing deformation of a pipe rack structure of a marine structure comprises an detachable unit, and an opposite plate(61). The detachable unit is detachably installed in an extension part(52a) formed in the side surface of a pipe rack structure. The opposite plate is mounted on the extension part by the detachable unit and installed to be faced with a superstructure adjacent to the pipe rack structure. If the pipe rack structure inclines, the opposite plate meets with the superstructure to prevent deformation of the pipe rack structure.

Description

ANTI-DEFORMATION DEVICE FOR PIPERACK MODULES OF A MARINE STRUCTURE}

The present invention relates to an apparatus for preventing deformation of an upper structure of an offshore structure, and more particularly, to prevent an upper structure installed on an upper deck of an offshore structure, in particular, a pipe rack structure having a small stiffness, which is excessively deformed due to the sea conditions. It relates to a deformation prevention device that can be.

In general, there are various types of offshore structures that operate in the offshore, and such offshore structures include, for example, LNG Floating, Production, Storage and Offloading (FPSO), Oil FPSO, LNG Floating Storage and Regasification Unit (FSRU), and FPU. Offshore plants such as Floating Production Units.

LNG FPSO is an offshore structure used to produce natural gas, liquefy the produced natural gas directly from the sea, store it in an LNG storage tank, and transfer LNG stored in the LNG storage tank to an LNG carrier if necessary. Oil FPSO is an offshore structure used to produce and store oil instead of natural gas and to transfer oil stored in storage tanks to tankers. In addition, the LNG FSRU is an offshore structure that stores LNG unloaded from LNG carriers in an LNG storage tank in a sea far from the land, and then vaporizes LNG as needed to supply land demand.

In particular, Oil FPSO or LNG FPSO is equipped with an oil storage tank or LNG storage tank in the hull, and various facilities necessary for processing crude oil or natural gas (eg, producing and liquefying natural gas) on the upper deck of the hull. In other words, a topside module is installed, each module weighing approximately hundreds to thousands of tons.

1 shows a schematic cross sectional view of an offshore structure. As shown in FIG. 1, on the upper deck 11 of the offshore structure 10, various types of superstructures (ie, topside modules) 40 on the port and starboard sides, respectively, around the pipe rack structure 20. This is arranged. Among the various structures arranged on the upper deck 11 of the offshore structure, the pipe rack structure 20 has a relatively low rigidity structure, and thus, when the offshore conditions are not good, for example, the offshore structure used for the shipyard is used. During the movement, there is a risk of excessive deformation toward the left and right strings depending on the sea condition. As the pipe rack structure 20 is deformed as described above, damage to other upper structures 40 arranged in the port and starboard is required, so that a means for reinforcing the rigidity of the pipe rack structure 20 is required.

2 shows a view of a pipe rack structure 20 reinforced with rigidity according to the prior art. According to the prior art, the rigidity of the pipe rack structure is reinforced by attaching a reinforcing member (Diagonal Brace) 23 for rigidity reinforcement between the vertical member 21 and the horizontal member 22 constituting the pipe rack structure by welding or the like. It was.

However, such a reinforcement method requires a plurality of reinforcement members 23 to be installed, which causes a lot of effort and cost for cutting and welding materials. In addition, due to the reinforcement member 23 permanently attached to the pipe rack structure 20, there was a problem that the interference problem occurs when installing various designs in the pipe rack structure.

The present invention for solving the above problems, the deformation preventing device is installed on the side of the pipe rack structure to prevent the pipe rack structure installed on the upper deck of the offshore structure to be excessively deformed by shaking left and right according to the sea conditions Is to provide.

According to an aspect of the present invention for achieving the above object, a pipe rack structure installed between the upper structures on the upper deck of the marine structure is installed to prevent the pipe rack structure is shaken from side to side and excessively deformed according to the sea conditions is installed A deformation preventing device, comprising: detachable means for detachably installed on an extension part protruding from a side of the pipe rack structure; When mounted to the extension unit by the detachable means, it is installed to face the upper structure adjacent to the pipe rack structure so that when the pipe rack structure is inclined, the opposite contact with the upper structure prevents deformation of the pipe rack structure. plate; Provided is a pipe rack structure deformation preventing device comprising a.

The detachable means is preferably a locking groove formed to be fitted to a locking projection formed to protrude upward at the end of the extension.

The deformation preventing device preferably includes a pair of left and right side plates attached to both sides of the counter plate facing the upper structure, and a back plate and a top plate respectively attached to the back and top surfaces of the counter plate.

A pad eye is installed at the upper end of the opposing plate for convenience in detachable operation, and the pipe rack structure deformation preventing device is characterized in that the shock absorbing material is attached or coated on the surface of the opposing plate.

The through hole is formed in the lower side of the side plate of the deformation preventing device, it is preferable to prevent the departure of the deformation preventing device by inserting a bolt in the through hole.

The position of the through hole is such that, when the deformation preventing device is installed in the extension part of the pipe rack structure, a bolt inserted into the through hole is positioned below the extension part to move upward of the deformation preventing device. It is desirable to be able to limit.

According to the present invention as described above, there is provided a deformation preventing device which is installed on the side of the pipe rack structure to prevent the pipe rack structure installed on the upper deck of the offshore structure to shake excessively left and right according to the sea conditions. .

According to the deformation preventing device of the present invention, unlike the reinforcing member used in the prior art, it is possible to solve the problem of increasing the number of members, complexity of work, increase in cost, etc. that can be caused by materials or welding work, The productivity improvement effect can be obtained by reducing the overall weight.

1 is a schematic cross-sectional view of an offshore structure in which a pipe rack structure reinforced according to the prior art is installed;
2 is a front view of a rigid pipe rack structure reinforced according to the prior art,
3 is a front view of a pipe rack structure having a deformation preventing device according to the present invention;
Figure 4 is an enlarged perspective view of the main portion of the pipe rack structure and the upper structure with a deformation preventing device according to the invention,
5 is an exploded perspective view of the deformation preventing device according to the present invention; and
FIG. 6 is a cross-sectional view taken along line AA ′ of FIG. 5.

Hereinafter, an apparatus for preventing deformation of an upper structure of an offshore structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As described above, in the present specification, a marine structure is a concept including both a structure and a vessel that are used while floating in an ocean where a flow occurs while having a storage tank for storing cargo. For example, LNG FPSO (Floating, Production) This includes ships such as LNG carriers, tankers, and LNG Regasification Vessels (RVs), as well as offshore plants such as storage and offloading, oil FPSO, and LNG floating storage and regasification units (FSRUs). In this specification, LNG FPSO will be described as an example of an offshore structure.

3 shows a front view of a pipe rack structure with a strain relief according to the invention. Since the pipe rack structure 50 has a relatively low rigidity among various structures arranged on the upper deck 11 of the offshore structure, when the offshore conditions are not good, for example, the offshore structure used for the shipyard is used. During the movement, there is a risk of excessive deformation toward the left and right strings depending on the sea condition. In order to prevent this, according to the present invention, the deformation preventing device 60 is installed on the side of the pipe rack structure 50.

Pipe rack structure 50 according to the present invention is composed of a plurality of vertical members 51 and a plurality of horizontal members 52, the conventional reinforcing member installed between the vertical member and the horizontal member is not installed. Instead, the deformation preventing device 60 is detachably installed in the extension portion 52a formed by extending one or more of the plurality of horizontal members 52 to protrude from the vertical member 51.

In FIG. 3, the installation position of the deformation preventing device 60 is defined as the second horizontal member 52 from above, but this is only an example and does not limit the present invention.

As shown in FIG. 4, the deformation preventing device 60 is installed to face the adjacent upper structure 40, and when the pipe rack structure 50 is deformed by a predetermined angle or more, the opposite side of the upper structure 40 is disposed. The abutment prevents the pipe rack structure 50 from further deforming. To this end, it is preferable that a shock absorbing material, for example, rubber or the like is attached to the surface of the counter plate 61 (see FIG. 6) of the deformation preventing device 60.

5 and 6, protruding upwards at the distal end of the extension portion (52a) to be detachably installed in the extension portion (52a) of the pipe rack structure (50). A locking protrusion 52b is formed, and a locking groove 63 is formed in the deformation preventing device 60. As the locking groove 63 is fitted into the locking protrusion 52b, the deformation preventing device 60 may be detachably installed in the extension 52a. In this way, the locking groove 63 functions as a detachment means for allowing the deformation preventing device 60 to be detachably installed in the pipe rack structure 50.

As described above, the deformation preventing device 60 includes an opposing plate 61 opposed to the upper structure 40, a pair of left and right side plates 62 attached to both sides of the opposing plate 61, and a hook. A back plate 63 and a top plate 64 are respectively attached to the back and top surfaces of the opposing plate 61 to form the grooves 63. A padeye 66 may be installed at an upper end of the opposing plate 61 for convenience in detachable work.

In addition, a through-bolt (not shown) may be inserted into the lower side of the side plate 62 of the deformation preventing device 60 so that the deformation preventing device 60 may remain mounted even when an impact or vibration is applied from the outside. Holes 62a may be formed.

The position of the through hole 62a is such that when the deformation preventing device 60 is installed in the extension portion 52a of the pipe rack structure 50, a member such as a bolt inserted into the through hole 62a is extended by the extension portion ( 52a) is preferably set so as to limit the movement of the deformation preventing device 60 in the upward direction.

According to the deformation preventing device of the present invention as described above, even if the pipe rack structure installed on the upper deck of the offshore structure is shaken from side to side according to the sea conditions, the deformation preventing device is installed on the side of the pipe rack structure to the upper structure Abutment to prevent excessive deformation of the pipe rack structure.

In addition, the deformation preventing device of the present invention is detachably configured and can be installed and used in a pipe rack structure only when necessary. Accordingly, there is no need to permanently install the reinforcement member as in the conventional pipe rack structure, so that the welding work and the like can be omitted and the number of parts can be reduced, thereby improving productivity.

As described above, the apparatus for preventing deformation of the upper structure of the marine structure according to the present invention with reference to the accompanying drawings, the present invention is not limited by the embodiments and drawings described above, the present invention within the claims Of course, various modifications and variations can be made by those skilled in the art.

50: pipe rack structure, 51: vertical member, 52: horizontal member, 52a: extension part, 52b: locking projection, 60: deformation preventing device, 61: counter plate, 62: side plate, 62a: through hole, 63: locking groove 64: back plate, 65: top plate, 66: pad eye.

Claims (6)

A pipe rack structure deformation preventing device installed to prevent excessive deformation of a pipe rack structure installed between upper structures on an upper deck of an offshore structure,
A detachable means detachably installed on an extension part protruding from a side of the pipe rack structure;
When mounted to the extension unit by the detachable means, it is installed to face the upper structure adjacent to the pipe rack structure so that when the pipe rack structure is inclined, the opposite contact with the upper structure prevents deformation of the pipe rack structure. plate;
Pipe rack structure deformation preventing device comprising a. The method according to claim 1,
The detachable means is a pipe rack structure deformation preventing device, characterized in that the locking groove is formed to be fitted to the engaging projection formed to protrude upward at the end of the extension. The method according to claim 1,
The deformation preventing device includes a pair of left and right side plates attached to both side surfaces of the opposing plate facing the upper structure, and a back plate and a top plate respectively attached to the back and top surfaces of the opposing plate. Pipe rack structure strain relief. The method according to claim 3,
A pad eye is installed at the upper end of the opposing plate for convenience in detachable operation, and the pipe rack structure deformation preventing device is characterized in that the shock absorbing material is attached or coated on the surface of the opposing plate. The method according to claim 3,
Through hole is formed in the lower side of the side plate of the deformation preventing device, Pipe rack structure deformation preventing device, characterized in that to prevent the departure of the deformation preventing device by inserting a bolt in the through hole. The method according to claim 5,
The position of the through hole is such that, when the deformation preventing device is installed in the extension part of the pipe rack structure, a bolt inserted into the through hole is positioned below the extension part to move upward of the deformation preventing device. Pipe rack structure deformation preventing device, characterized in that determined to be limited.

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