KR20160062490A - Install structure of angle adjusting type padeye, reinforced member having the install structure in offshore structure and angle adjusting method of the padeye - Google Patents

Abstract

The present invention relates to a padeye formed in a lifting structure in lifting work using a crane. In lifting work for a reinforced member, when angle change in a padeye is needed in accordance with a lifting work condition, an angle of the padeye is properly adjusted by rotating a circular pipe in which the padeye is formed, thereby reducing materials and production hours to remanufacture the padeye as the position of the padeye is changed.

Description

TECHNICAL FIELD [0001] The present invention relates to an installation structure of an angle-adjustable pad eye, a reinforcement member for an ocean structure having the angle-adjustable pad eye installation structure, and a method of adjusting the angle of the angle adjustable pad eye. THE INSTALL STRUCTURE IN OFFSHORE STRUCTURE AND ANGLE ADJUSTING METHOD OF THE PADEYE}

The present invention relates to a pad eye formed on a lifting structure during a lifting operation using a crane and, in a lifting operation of a reinforcing member used for reinforcing a top side structure such as a brace, An installation structure of an angle adjustable pad eye capable of appropriately adjusting the angle of a pad eye by rotating a circular pipe having a pad eye formed therein and a reinforcement member of an ocean structure having the angle adjustable pad eye installation structure And a method for adjusting the angle of the angle adjustable pad eye.

For example, LNG FPSO (Floating, Production, Storage and Offloading) is a concept that includes both a structure and a ship that are floated in the sea where a storage tank is located. (LNG Regasification Vessel), as well as offshore plants such as LNG, Oil FPSO, and LNG FSRU (Floating Storage and Regasification Unit).

LNG FPSO is an offshore structure used to produce natural gas, store the natural gas directly in the sea and store it in the LNG storage tank, and transfer the LNG stored in the LNG storage tank to the LNG transport if necessary.

Oil FPSO is an offshore structure used to produce and store petroleum instead of natural gas and to transfer the oil stored in the storage tank to the oil tanker.

In addition, the LNG FSRU is an offshore structure that stores LNG unloaded from an LNG carrier in the offshore sea and stores it in an LNG storage tank, then vaporizes the LNG if necessary, and supplies it to a customer on land.

Particularly, the LNG FPSO is provided with an LNG storage tank for storing liquefied LNG in the hull, and is equipped with various facilities necessary for processing natural gas (for example, producing and liquefying natural gas) on the upper deck of the hull, Topside modules are installed, each of which weighs several hundred to several thousand tons.

In the case of Oil FPSO, hundreds to thousands of tonnes of topside modules are placed on the upper deck for the treatment of oil. As heavy modules are installed on the upper deck of LNG FPSO or Oil FPSO, it is necessary to reinforce the hull strength so that the hull of LNG FPSO or Oil FPSO can bear the load of the topside module.

A brace is a support, a reinforcing bar, etc. used for a structure or the like. An H beam or the like is used as a reinforcing member used for reinforcing a top side module of a ship.

The brace is transported by the crane to the installation position. The brace is equipped with a padeye for connecting with the crane when the brace is transported.

1 is a front view showing a conventional brace provided with a pad eye.

1, a conventional pad eye 20 has a coupling groove 21 at the center thereof for fastening a wire 30 of a crane, and a pair of pad eyes 20 are formed on both sides of the brace 10 Respectively.

When the brace 10 is to be transferred, the wire 30 of the crane is inserted into the coupling groove 21 of the pad eye 20 formed on both sides of the brace 10, and then the crane is operated to move the brace 10 ) To a predetermined position.

However, since the angle of the conventional pad eye is fixed only in one direction, there is a problem in module lifting when an unexpected problem occurs in the field.

In most of the modules, there is a lack of accurate information about the angle of the pad eye. Even if there is information, it is necessary to change the angle of the pad eye from time to time. Therefore, ) Is consumed.

Korean Patent Publication No. 10-2014-0084826

In order to solve the above-described problems, the present invention provides a method of adjusting a pad eye angle by appropriately adjusting a pad eye angle by rotating a round pipe having a pad eye when the angle of the pad eye is required to be changed according to a lifting operation condition, The present invention provides an angle adjustable pad eye mounting structure capable of expecting a reduction in materials and production time for remanufacturing due to a change in the position of the pad eye, a reinforcement member for an ocean structure having the angle adjustable pad eye mounting structure, And a method of adjusting the angle of the angle adjustable pad eye.

In order to accomplish the above object, the present invention provides a mounting structure of a pad eye formed on a steel beam for lifting a steel beam of H type, wherein a through hole penetrating the web of the steel beam and the flange of the steel beam Wherein a circular pipe is rotatably inserted in the through hole, a plate having the pad eye formed in contact with an upper surface of the flange at one side of the circular pipe, and a circular pipe And a ring plate for preventing detachment of the pad-eye.

The ring plate may be welded to the flange after the angle of the pad eye is set.

According to another aspect of the present invention, a circular pipe is rotatably inserted into a through hole of an H-shaped steel beam, a plate having a pad eye formed on one side of the circular pipe, Provided is a reinforcement member of an offshore structure having an installation structure of an angle-adjustable pad eye to which a ring plate for preventing separation is attached.

As described above, according to the present invention, when the angle of the pad eye is required to be changed according to the lifting operation condition during the lifting operation of the reinforcing member, the circular pipe having the pad eye is rotated, By fixing the ring plate to the flange by welding after the completion of the welding, it is possible to expect the effect of reducing the material and the manufacturing time for the re-production according to the change of the position of the pad eye.

Further, in the present invention, a through hole is formed in the reinforcing member, and a circular pipe is inserted in the through hole, so that the circular pipe itself performs a reinforcing function, so that a reinforcing stiffener is not required.

Further, the present invention is advantageous in that the rigidity of the structure is maintained by fixing the ring plate after welding is completed after the angle of the pad eye is appropriately adjusted.

Fig. 1 is a front view showing a brace in which a conventional pad eye is installed
FIG. 2 is a perspective view illustrating an installation structure of an angle-adjustable pad eye according to the present invention,
FIG. 3 is a perspective view illustrating an installation structure of an angle-adjustable pad eye according to an embodiment of the present invention,
4 is a process diagram illustrating the installation of an angle-adjustable pad eye according to the present invention
5 is a block diagram illustrating a method for adjusting the angle of an angle-adjustable pad eye according to the present invention.

Hereinafter, an attachment structure of an angle-adjustable pad eye according to the present invention and a reinforcement member of an ocean structure having the angle-adjustable pad eye attachment structure will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing an installation structure of the angle adjustable pad eye and a reinforcing member according to the present invention, FIG. 3 is an assembled perspective view showing an installation structure of the angle adjustable pad eye and a reinforcing member, FIG. Is a process diagram illustrating the installation of an angle adjustable pad eye according to the present invention.

2 to 4, a circular pipe 130 is rotatably inserted into a through hole 101 of an H-type steel beam, and a pad eye 141 And a ring plate 150 for preventing the circular pipe 130 from being separated from the other side of the circular pipe 130 is formed on the other side of the circular pipe 130, The present invention provides a reinforcement member 100 of an offshore structure having a structure.

The reinforcing member 100 of the present invention is a steel beam used for reinforcing the top side structure, and may be formed of an H beam or the like.

The reinforcing member 100 of the present invention has flanges 120 formed on both sides of the web 110. The through holes 101 are formed at positions passing through the web 110 and the flange 120. [

A circular pipe (130) is rotatably inserted into the through hole (101).

One side of the circular pipe 130 is formed with a plate 140 which is in contact with the upper surface of the flange 120 and on which the pad eye 141 is formed. A ring plate 150 is coupled to the other side of the circular pipe 130 to prevent the circular pipe 130 from coming off. As an example of the coupling method of the ring plate 150, welding is possible.

Hereinafter, an installation structure of the angle-adjustable pad eye according to the present invention will be described.

As is known, the pad eye 141 is for lifting the reinforcing member 100, which is an H-shaped steel beam. When the reinforcing member 100 is lifted, the angle of the pad eye 141 is changed from time to time The circular pipe 130 may be rotated at a predetermined angle without fixing the pad eye 141 directly to the reinforcement member 100. In this case, So that the angle of the eye 141 can be adjusted.

A through hole 101 is formed at a position passing through the web 110 and the flange 120. The through hole 101 is formed at a position passing through the web 110 and the flange 120, The reason for this is that the pad eye 141 is positioned at the center of the flange 120 so as to disperse the load or stress during the lifting operation.

A circular pipe 130 is rotatably inserted into the through hole 101. The circular pipe 130 may be either solid or hollow but is preferably hollow to reduce the weight.

A plate 140 is formed on one side of the circular pipe 130 and is in contact with an upper surface of the flange 120 and formed with a pad eye 141. A circular pipe 130 is detached from the other side of the circular pipe 130 The ring plate 150 is engaged. The ring plate 150 is welded to the flange 120 after the angle of the pad eye 141 is set.

When the angle of the pad eye 141 is required to be changed according to the lifting operation condition during the lifting operation of the reinforcing member 100, the angle of the circular pipe 130 The ring plate 150 is fixed to the flange 120 by welding so that the position of the pad eye 141 is changed so that the position of the pad eye 141 is changed And it can be expected to reduce the production cost.

FIG. 5 is a block diagram illustrating a method of adjusting the angle of the angle-adjustable pad eye according to the present invention.

2 to 5, a method of adjusting the angle of an angle-adjustable pad eye according to the present invention includes the steps of: forming a through hole 101 in a reinforcing member 100; Welding (S 20) the plate 140 with the pad eye 141 formed on one side of the circular pipe 130; (S30) rotatably inserting the circular pipe (130) in the through hole (101); (S40) setting an angle of the pad eye (141) during a lifting operation of the reinforcing member (100); And welding the ring plate 150 to the other side of the circular pipe 130 to prevent detachment of the circular pipe 130 and fix the position of the pad eye 141.

The present invention is characterized in that the through hole 101 is formed in the reinforcing member 100 and the circular pipe 130 is inserted into the through hole 101 so that the circular pipe 130 itself functions as a reinforcing member, Stiffener is unnecessary.

Also, there is an advantage that the rigidity of the structure can be maintained by fixing the ring plate 150 by welding after the angle of the pad eye 141 is appropriately adjusted and the setting is completed.

100: reinforcing member
101: Through hole
110: web
120: Flange
130: Circular pipe
140: Plate
141: Pad Eye
150: ring plate

Claims (5)

A mounting structure for a pad eye formed on a steel beam for lifting a steel beam of H type, wherein a through hole is formed through a web of the steel beam and a flange of the steel beam, Wherein a ring plate is provided at one side of the circular pipe to contact the upper surface of the flange and to form a plate having the pad eye formed therein and to prevent the circular pipe from escaping to the other side of the circular pipe Features of the angle adjustable pad eye installation structure. The method according to claim 1,
Wherein the ring plate is welded to the flange after the angle of the pad eye is set. Wherein an installation structure of the pad eye formed on the steel beam for lifting a steel beam of the H type is characterized in that the pad eye is installed to be adjustable in angle with the steel beam. Forming a through hole in the reinforcing member;
Welding a plate having a pad eye on one side of the circular pipe;
Rotatably inserting the circular pipe in the through hole;
Setting an angle of the pad eye during a lifting operation of the reinforcing member; And
And welding a ring plate to the other side of the circular pipe to prevent separation of the circular pipe and fix the position of the pad eye. Claims [1] A reinforcement member for an offshore structure having an installation structure of an angle-adjustable pad eye according to claim 1 or 3.

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