KR101722370B1 - Cargo barrier structure - Google Patents

Abstract

A cargo hold barrier structure is disclosed. A cargo hold barrier structure according to an embodiment of the present invention includes a primary barrier surrounding a space capable of accommodating a liquefied gas, an insulation panel assembly surrounding the primary barrier, and a fixing unit for fixing the insulation panel assembly, The unit includes a joint block having a ball socket, a ball joint inserted into the ball socket, a stud bolt having a fastening portion extending from the ball joint, and a fastening member fastened to the fastening portion and pressingly supporting the heat insulating panel assembly do.

Description

Cargo barrier structure {CARGO BARRIER STRUCTURE}

The present invention relates to a cargo hold barrier structure.

Liquefied gas is a liquid made by cooling or compressing gas, and consumption of liquefied gas such as Liquefied Natural Gas (LPG) or LPG (Liquefied Petroleum Gas) is rapidly increasing worldwide.

Liquefied natural gas (LNG), which is an example of liquefied gas, refers to a colorless transparent cryogenic liquid having a volume of methane-based natural gas cooled to -162 ° C and reducing its volume by one-sixth, In order to utilize natural gas as energy, efficient transportation methods have been examined that can be mass-shipped from the production base to the destination of the demand site. As part of this effort, a liquefied natural gas transport vessel capable of transporting large volumes of liquefied natural gas to sea was developed.

The liquefied natural gas transportation vessel must have a cargo which can store and store the liquefied natural gas liquefied at a cryogenic temperature.

That is, since the liquefied natural gas has a higher vapor pressure than the atmospheric pressure and has a boiling temperature of about -162 ° C, in order to safely store and store such liquefied natural gas, For example, it should be made of aluminum steel, stainless steel, 35% nickel steel, etc. It should be designed with a unique insulation panel structure which is resistant to thermal stress and heat shrinkage and prevents heat penetration. Such a cargo hold of a liquefied natural gas transportation vessel can be divided into a self-supporting type and a membrane type depending on its structure.

Korean Patent Laid-Open Publication No. 10-2012-0013233 (Feb. 14, 2012) discloses a liquefied natural gas storage tank and a manufacturing method thereof.

Korean Published Patent Application No. 10-2012-0013233 (2012.02.14.)

Embodiments of the present invention provide a cargo hold barrier structure capable of shortening a working time for installing a cargo hold barrier and improving the reliability of the barrier structure.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a gas turbine comprising a primary barrier surrounding a space capable of accommodating a liquefied gas, an insulation panel assembly surrounding the primary barrier, and a fixed unit for fixing the insulation panel assembly, The unit includes a joint block having a ball socket, a ball joint inserted into the ball socket, a stud bolt having a fastening portion extending from the ball joint, and a stud bolt fastened to the fastening portion, A cargo barrier structure including a fastening member can be provided.

The heat insulating panel assembly includes a lower heat insulating foam and a first bottom surface reinforcing panel coupled to a lower surface of the lower heat insulating foam. The fastening member is fitted to the fastening portion and is supported on the upper surface of the first bottom surface reinforcing panel. And a nut fastened to the fastening portion and pressingly supporting the washer.

Also, the heat insulating panel assembly includes an upper insulating board and a lower insulating board, the joint block is coupled to the upper surface of the lower insulating board, and the connecting unit is inserted into the upper insulating board through the lower surface of the upper insulating board , The fastening member can press-support the upper heat-insulating board.

In addition, the heat insulation panel assembly includes a lower insulation board, a secondary barrier to be stacked and fixed on the lower insulation board, and an upper insulation board laminated and fixed on the secondary barrier. The lower insulation board includes a square unit bottom insulation board And the upper insulating board may be arranged in a lattice shape in the form of a rectangular unit upper insulating board covering the two adjacent unit lower insulating boards.

The secondary barrier may be welded to the lower insulation board by welding with a first fixing strip provided on the upper insulation board.

An anchoring block having an anchoring bolt protruded to fix the upper heat insulating board may be coupled to the upper surface of the lower heat insulating board.

The anchoring bolt is inserted into the anchoring bolt through-hole formed in the upper heat insulating board through the secondary barrier, and a nut and a washer are fastened to the end of the anchoring bolt to support the upper heat insulating board, The board and the lower insulating board may be bound to each other.

In addition, at least two or more anchor bolt through-holes may be provided in the upper unit insulation board.

The upper surface of the upper heat insulating board may be provided with a second fixing strip for welding the primary barrier.

The embodiments of the present invention can shorten the working time for installing the cargo hold barrier, improve workability and productivity, and can disperse the stress generated in the shrinkage and expansion of the heat insulating panel due to thermal stress, The reliability of the apparatus is improved.

1 is a perspective view illustrating a cargo barrier structure according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a coupling relation of a lower heat insulating board installed on an inner wall of a hull according to an embodiment of the present invention. FIG.
3 is an exploded perspective view of a lower insulation board according to an embodiment of the present invention.
4 is a cross-sectional view taken along the line I-I in Fig.
5 is a cross-sectional view taken along the line II-II in Fig.
6 shows a washer fastened to a stud bolt according to another embodiment of the present invention.
FIG. 7 is a view showing a coupling relation between a lower insulation board and a secondary barrier according to an embodiment of the present invention.
8 illustrates a state in which a secondary barrier is coupled to a lower insulation board according to an embodiment of the present invention.
FIG. 9 is a perspective view illustrating a coupling relationship between an upper insulating board and a secondary barrier according to an embodiment of the present invention. FIG.
10 is an exploded perspective view of an upper insulating board according to an embodiment of the present invention.
FIG. 11 is a view showing a coupling relation between an upper insulating board and a lower insulating board according to an embodiment of the present invention.
FIG. 12 is a cross-sectional view illustrating a coupling relationship between an upper insulating board and a lower insulating board 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. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

Also, terms including ordinals such as " first, " " second, " and the like can be used to describe various elements, but the elements are not limited by terms. Terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

The terms used in the present application are used to illustrate the embodiments and are not intended to limit or limit the invention, and the singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprise", "comprising", and the like are intended to specify the presence of stated features, integers, steps, components, or combinations thereof, and may include one or more other features, Steps, elements, or combinations thereof, as a matter of convenience, without departing from the spirit and scope of the invention. Also, when a part is referred to as being "connected" to another part, it includes not only a direct connection but also an indirect connection between the other parts.

The cargo holds according to the embodiments of the present invention can be used in a cryogenic liquefied gas such as liquefied natural gas (LNG), liquefied petroleum gas (LPG), dimethyl ether (DME) And so on. Such cargo holds may include liquefied gas carriers such as LNG carrier, LNG RV (Regasification Vessel) carrier, LPG carrier or ethylene carrier, FSRU (Floating Storage Regulation Unit), FPSO (Floating Production Storage Offloading) Or barge mounted power plant (BMPP), or to a marine floating facility with vaporization facilities. In addition, the liquefied gas cargo holds include those used on the land as well as those installed on land and used to store or produce liquefied gas.

Hereinafter, a barrier structure constituting a cargo hold installed in a cargo carrier carrying liquefied gas will be described with reference to Fig.

1, a barrier structure of a cargo hold includes a lower insulation board 100, a secondary barrier 200, an upper insulation board 300, and a primary barrier 200, which are sequentially stacked and fixed from an inner hull 10, (400). The lower insulation board 100, the secondary barrier 200, and the upper insulation board 300 surround the primary barrier 400 and form an insulation panel assembly that blocks heat transfer between the interior of the cargo hold and the inner wall of the hull.

The primary barrier 400 is a part directly in contact with the liquefied gas stored in the cargo hold and includes a plurality of unit primary barrier sheets 401 made of metal such as INVAR, stainless steel (SUS), or aluminum alloy As shown in FIG. The first barrier 400 has a plurality of raised portions 410 protruding to facilitate thermal contraction and expansion. The plurality of the wrinkled portions 410 have a size and number in consideration of the elastic strain due to thermal stress Can be appropriately designed and changed.

The upper insulating board 300 absorbs a fluid impact force such as sloshing applied to the primary barrier 400 and functions as a heat radiating member to prevent the internal temperature of the cargo hold from being transmitted to the inner wall 10 of the hull. The upper insulating board 300 is made of a reinforced polyurethane foam, which is a composite material produced by a continuous process of injecting high density liquid polyurethane and glass fiber into a laminator, (Reinforced Polyurethane Foam, R-PUF) or a low-density polyurethane foam (PUF) with excellent heat insulation performance.

The secondary barrier 200 is interposed between the upper insulating board 300 and the lower insulating board 100 to perform a damping action and at the same time, when the primary barrier 400 is damaged, the liquefied gas stored in the hold is leaked to the outside ≪ / RTI > The secondary barrier 200 may be formed by connecting a plurality of barrier sheets made of metal such as an invar alloy (INVAR), stainless steel (SUS), or aluminum alloy.

The lower insulation board 100 absorbs a fluid impulsive force such as sloshing applied to the primary barrier 400 and functions as a heat radiating member to prevent the internal temperature of the cargo hold from being transmitted to the inner wall 10 of the hull. The lower insulation board 100 may be formed of a reinforced polyurethane foam (R-PUF) or a low-density polyurethane foam (PUF) having excellent heat insulation performance so as to form a double insulation structure together with the upper insulation board 300. [ As shown in FIG.

Hereinafter, a description will be made of a manufacturing process of a cargo hold barrier structure according to an embodiment of the present invention. The barrier structure of the cargo hold can be divided into a barrier structure provided on a flat surface constituting the cargo hold and a barrier structure constituting a corner portion of the cargo hold. Hereinafter, a barrier structure provided on the flat surface of the cargo hold will be described.

FIG. 2 is a perspective view showing a coupling relation of a lower heat insulating board installed on an inner wall of a hull according to an embodiment of the present invention, FIG. 3 is an exploded perspective view of a lower heat insulating board according to an embodiment of the present invention, Fig. 5 is a cross-sectional view taken along the line II-II in Fig. 2. Fig.

2 to 5, the lower insulation board 100 includes a unit lower insulation board 101 in which four corners are supported on a level pad 11 provided on a flat surface of the inner surface 10 of the ship, May be arranged in a lattice form.

The unit lower thermal insulation board 101 may be provided in a square shape having a length and a length of 1 m x 1 m (1: 1 ratio) for manual transportation and installation convenience. Can be fixed by a fixing unit including a stud bolt 520 installed on the inner wall 10 of the hull in a state of being arranged in a lattice form.

The lower insulation board 100 includes a lower insulation foam 110 formed of a reinforced polyurethane foam or a polyurethane foam, a first upper surface reinforcement panel 120 coupled to an upper surface of the lower insulation foam 110, And a first bottom surface reinforcing panel 130 coupled to a bottom surface of the first bottom surface reinforcing panel 110. The first upper surface reinforcing panel 120 and the first lower surface reinforcing panel 130 may be formed of plywood or the like and may be formed of epoxy glue or the like on the upper and lower surfaces of the lower heat insulating foam 110, They can be firmly fixed to each other by fasteners such as adhesives or bolts and rivets.

Bolt fastening holes 111, 112 and 113 are formed near the four corners of the lower heat insulating board 100, through which the stud bolts 520 installed on the inner wall 10 of the ship are inserted.

The bolt fastening holes 111, 112 and 113 have a first bolt fastening hole 111 formed through the first bottom reinforcing panel 130 and a second bolt fastening hole 111 formed to have a relatively larger diameter than the first bolt fastening hole 111. [ A second bolt fastening hole 112 and a third bolt fastening hole 113 formed through the lower heat insulating foam 110.

The fixing unit 500 fixing the lower insulating board 100 to the inner wall 10 of the hull includes a joint member 530 fastened to the joint block 510, the stud bolt 520 and the stud bolt 520.

The joint block 510 may be welded to the inner wall 10 of the hull, and a ball socket 511 may be provided on the upper surface of the joint block 510 to be recessed in a substantially spherical shape. A spherical ball joint portion 521 provided at the lower end of the stud bolt 520 is rotatably coupled to the ball socket 511 and the joint portion 521 of the stud bolt 520, The second bolt hole 522 may protrude into the third bolt fastening hole 113 through the first bolt fastening hole 111 of the first bottom surface reinforcing panel 130. The lower heat insulating board 100 is fixed to the inner wall 10 of the hull as the fastening members 530 are fastened to the fastening portions 522 of the stud bolts 520 protruding into the third bolt fastening holes 113. The fastening member 530 includes a washer 531 that is fitted to the fastening portion 522 of the stud bolt 520 and is supported on the upper surface of the first bottom surface reinforcing panel 130 and a fastening portion 522 fastened to the fastening portion 522 of the stud bolt 520 And a nut 532 which is screwed and supports the washer 531 by pressure.

The stud bolt 520 and the first bottom surface reinforcing panel 130 are spaced apart from each other by the gap between the stud bolt 520 and the first bottom surface reinforcing panel 130. Therefore, The lower heat-insulating board 100 can be slid in the in-plane direction according to the hinge behavior, thereby preventing the stud bolt 520 from being excessively stressed.

6, the washer 531, which is pressed and supported by the nut 532, has a semi-spherical shape with a spherical surface 531a in contact with the nut 532 to facilitate the hinge movement of the stud bolt 520 As shown in FIG.

The lower insulation board 100 may also be supported by an adhesive 28, such as an epoxy mastic, on the hull inner wall 10. The adhesive 28 interposed between the inner wall 10 of the ship and the lower heat insulating board 100 is formed by bonding the lower heat insulating board 100 to the inner wall 10 of the ship while correcting the bending of the inner wall 10 of the ship, Thereby relieving the impact transmitted.

After the fixing of the lower heat insulating board 100 by the fixing unit 500 is completed, the foam plug 150 is inserted through the opened upper side of the bolt fastening holes 111, 112 and 113 for the heat insulating performance of the lower heat insulating board 100 And the upper side of the bolt fastening holes 111, 112 and 113 can be finished by the cap 151 made of plywood or the like. Although not shown, a flat joint formed of a heat insulating material such as glass wool may be inserted into the gap between neighboring unit lower thermal insulating boards 101 to seal them. However, adjacent unit lower thermal insulating boards 101 are in close contact with each other It can be omitted.

A first fixing strip 160 and an anchoring block 170 for welding the secondary barrier 200 may be provided on the upper side of the lower insulation board 100.

The first fixing strip 160 may be formed in a strip shape made of stainless steel and seated in a first strip receiving groove 161 formed in the upper surface of the first upper surface reinforcing panel 120, Can be mechanically coupled to the first top-surface-reinforcing panel 120 by the first top- When the first fixing strip 160 is placed in the first strip receiving groove 161, the upper surface of the first fixing strip 160 may form substantially the same plane as the upper surface of the first upper surface reinforcing panel 120 And does not protrude from the upper surface of the first upper surface reinforcement panel 120.

The first fixing strip 160 is formed by a plurality of unit lower insulation boards 101 so as to have a shape corresponding to the unit secondary barrier sheet 201 (see FIG. 7) laminated and fixed on the lower insulation board 100 And may be arranged to form a plurality of rows and columns on the lower insulating board 100. The first fixing strips 160 arranged to form a plurality of rows and columns are arranged at a position abutting the edge portions of the unit secondary barrier sheet 201 when the unit secondary barrier sheet 201 is laid over the lower heat- As shown in FIG. The first fixing strips 160 prevent burn-damage which occurs when the edge portions of the unitary secondary barrier sheets 201 adjacent to each other on the lower insulating board 100 are welded to each other, The second secondary barrier sheet 201 is welded to the first secondary barrier sheet 201 while preventing the first secondary barrier sheet 100 from being damaged.

The anchoring block 170 may be formed of a metal material such as stainless steel (SUS) or the like and may be provided in the form of a plate having a predetermined thickness. The anchoring block 170 is mounted on the anchoring block receiving groove 171 formed in the concave central region of the first upper surface reinforcement panel 120 forming the unit lower thermal insulating board 101, 1 < / RTI > When the anchoring block 170 is seated in the anchoring block receiving groove 171, the upper surface of the anchoring block 170 may form substantially the same plane as the upper surface of the first upper surface reinforcing panel 120, And does not protrude from the upper surface of the panel 120. The anchoring block 170 is provided at its central portion with an anchoring bolt 175 protruding upward from the surface of the anchoring block 170. The anchoring bolts 175 may be separately provided and welded to the anchoring blocks 170, joined together by a screw fastening method, or integrally formed with the anchoring blocks 170.

The anchoring block 170 forms a welded portion to the secondary barrier 200 and the anchoring bolt 175 is mechanically coupled to the upper insulating board 300 to form an upper portion And serves to fix the heat insulating board 300.

FIG. 7 is a view showing a coupling relation between a lower insulation board and a secondary barrier according to an embodiment of the present invention, and FIG. 8 is a view illustrating a state in which a secondary barrier is coupled to a lower insulation board according to an embodiment of the present invention .

7 and 8, the unitary secondary barrier sheet 201 according to an embodiment of the present invention includes a plurality of unit bottom insulating boards 101 arranged in a rectangular shape on the inner wall 10 of the ship, It may be provided so as to have a size covering at least one region. In this case, on the upper surface of the eight unit lower thermal insulation boards 101, strip-shaped first fixing strips 160 forming a closed curve corresponding to the edges of the unit secondary barrier sheet 201 are arranged .

A unit secondary barrier sheet 201 laminated on the lower heat insulating board 100 is provided with a plurality of corrugated portions 210 that can be accommodated in a gap between neighboring unit lower heat insulating boards 101, Anchoring bolt through holes 220 through which the anchoring bolts 175 can penetrate may be provided at portions corresponding to the anchoring bolts 175 provided on the plurality of unit lower insulation board 101 on which the anchoring bolts 175 are stacked.

The plurality of wrinkles 210 may have a concave curved shape bent downward from the surface of the unit secondary barrier sheet 201 and may have a curved shape bent at a predetermined interval along the long side of the unit secondary barrier sheet 201 And one wrinkle portion formed on one side of the short side of the unit secondary barrier sheet 201 may be provided so as to intersect with each other.

When such a unitary secondary barrier sheet 201 is laminated on the lower heat insulating board 100, the edge portion of the unit secondary barrier sheet 201 is disposed at a position in contact with the first stationary strip 160, The unit secondary barrier sheet 201 can be temporarily fixed on the lower heat insulating board 100 as tack welding is performed. At this time, the plurality of corrugated portions 210 of the unit secondary barrier sheet 201 are inserted into the gap between the corresponding unit lower thermal insulating boards 101, and the anchoring bolts 175 protruding from the upper surface of the unit lower insulating board 101 Passes through the anchor bolt through-hole 220 of the unit secondary barrier sheet 201, and protrudes to the upper portion of the unit secondary barrier sheet 201. A chamfer 123 inclined downward is formed around the upper surface edge of the unit lower thermal insulation board 101 adjacent to the plurality of wrinkles 210 to form a plurality of wrinkles 210 in the unit lower thermal insulation boards 101 It is possible to prevent the occurrence of interference when inserting into the gap.

After the unit secondary barrier sheet 201 is laminated on the lower insulating board 100, the peripheral portion of the anchor bolt through-hole 220 of the unit secondary barrier sheet 201 is welded to the anchor block 170 by arc welding. The second unitary barrier sheet 201 adjacent to the first unitarily installed secondary barrier sheet 201 is continuously arranged on the upper surface of the lower heat-insulating board 100, The installation of the barrier 200 is completed.

On the other hand, the edge portions where the adjacent unitary secondary barrier sheets 201 overlap each other or the edge portions that abut each other can be welded by an automatic welding apparatus using a welding method such as lap welding, butt welding, laser welding or plasma welding have. The first fixing strip 160 is disposed at a position corresponding to a portion where the unit secondary barrier sheets 201 are welded (weld line or welding seam), so that the deformation of the lower heat- And can be welded to the unitary secondary barrier sheets 201 which are arranged to overlap with each other.

As described above, the combined structure of the lower insulation board 100 and the secondary barrier 200 according to the embodiment of the present invention can simplify the manufacture of the cargo hold barrier structure, thereby shortening the working time and improving the productivity. That is, the unit secondary barrier sheet 201 has the corrugated portion 210 corresponding to the gap of the boundary formed between the plurality of unit lower insulating boards 101, and the short side of the unit secondary barrier sheet 201 The intersection 211 of the wrinkle 210 and the anchoring bolt through-hole 220 are located at positions adjacent to both sides of the center with respect to the center, and the unit lower insulation board 101 has an anchoring bolt 175 The first fixing strip 160 is disposed on the lower heat insulating board 100 so as to have a shape corresponding to the edge shape of the unit secondary barrier sheet 201 , The alignment and welding operation of the unit secondary barrier sheets 201 on the lower insulation board 100 becomes easy and simple, so that the barrier installation work can be efficiently performed.

FIG. 9 is a perspective view showing a coupling relation between an upper insulation board and a secondary barrier according to an embodiment of the present invention, FIG. 10 is an exploded perspective view of an upper insulation board according to an embodiment of the present invention, And FIG. 5 is a view showing the coupling relationship between the upper and lower heat insulating boards according to the embodiment of the present invention.

Referring to FIGS. 9 to 11, the upper insulating board 300 includes a plurality of unit upper insulating boards 301 arranged in a lattice form on the upper surface of the secondary wall 200.

The unit upper insulating board 301 includes an upper insulating foam 310 formed of a reinforced polyurethane foam or a polyurethane foam, a second upper surface reinforcing panel 320 coupled to an upper surface of the upper insulating foam 310, And a second bottom surface reinforcing panel 330 coupled to a bottom surface of the first bottom surface 310. The second upper surface reinforcement panel 320 and the second lower surface reinforcement panel 330 may be made of plywood or the like and may be formed of an adhesive such as an epoxy glue or a bolt And the fastening members such as rivets.

The unit upper insulating board 301 may be provided to have a size corresponding to the two unit lower insulating boards 101 arranged in parallel on the inner wall 10 of the ship for transportation and installation convenience. In other words, when the unit lower insulation board 101 is provided in a square shape having a length of 1m x 1m (1: 1 ratio) in the horizontal and vertical lengths, the unit upper insulation board 301 has a length of about 1m x 2m (1: 2 ratio).

When the unit upper insulating board 301 is stacked on the lower insulating board 100, the interface between the side surfaces of the unit upper insulating board 301 adjacent to each other is a boundary surface where the sides of the unit lower insulating board 101 are in contact with each other They can be arranged almost in the same line. This structure eliminates the need for a separate connection board to fill the gaps formed between the existing upper insulation boards, thus simplifying the installation work of the barrier.

The anchoring bolts 175 protrude through the anchoring bolt through holes 220 of the secondary barrier 200 and are inserted into the unit bottom insulating board 101 through the anchoring bolts 175, Bolt fastening holes 340 are provided. The anchoring bolt fastening hole 340 has a first anchoring bolt fastening hole 341 formed through the second bottom reinforcing panel 330 and a second upper surface reinforcing hole 341 having a relatively larger diameter than the first anchoring bolt fastening hole 341. [ A second anchoring bolt fastening hole 342 and a third anchoring bolt fastening hole 343 formed through the panel 320 and the upper heat insulating foam 310. When the unit upper insulating board 301 is fixed to the lower heat insulating board 100, the end of the anchoring bolt 175 protruding through the secondary wall 200 passes through the first anchoring bolt fastening hole 341, The washer 350 and the nut 351 are fastened to the end of the anchoring bolt 175 protruding from the third anchoring bolt fastening hole 343 and protruding from the third anchoring bolt fastening hole 343, The upper heat insulating board 300 can be firmly fixed to the lower heat insulating board 100. For insulation performance of the upper insulating board 300, a foam plug 365 is inserted through an opened upper side of the anchoring bolt fastening hole 340 to be sealed, and the anchoring bolt 361 is closed by a cap 361 made of plywood or the like. The unit upper insulation board 301 covers the two unit lower insulation boards 101 when coupled with the lower insulation board 100 so that two anchoring bolts 175 The rotation of the unit upper insulation board 301 can be prevented at the time of installation of the barrier, so that the installation work of the barrier is facilitated. Especially, when the side wall of the cargo holds or the barriers are installed on the ceiling, the installation work efficiency is greatly improved.

The second bottom surface reinforcing panel 330 may further include a shock absorbing panel 360 on the lower surface thereof. The shock absorbing panel 360 may be made of melamine foam as a foam material to absorb the impact applied to the primary barrier 400. Melamine foam is an open type foam based on amino resin type melamine resin, which not only absorbs impact but also has excellent heat insulation performance. However, it is not so limited, and the shock absorbing panel 360 may be made of a variety of materials that can protect the cargo barrier from sloshing shock by the liquefied gas stored within the cargo hold.

A second fixing strip 370 for welding the primary barrier 400 may be provided on the upper side of the upper insulating board 300.

The second fixing strips 370 may be formed in a strip shape made of stainless steel. The second fixing strips 370 are seated in a second strip receiving groove 380 formed in the upper surface of the second upper surface reinforcing panel 320, And may be mechanically coupled to the two upper surface reinforcing panel 320. When the second fixing strip 370 is placed in the second strip receiving groove 380, the upper surface of the second fixing strip 370 may form substantially the same plane as the upper surface of the second upper surface reinforcing panel 320 And does not protrude from the upper surface of the second upper surface-strengthening panel 320. The second fixing strips 370 may be provided in a single strip, or may be provided such that a plurality of strips are continuously connected to each other, and may have a shape crossing each other.

Hereinafter, with reference to FIG. 12, the relationship between the upper and lower heat-insulating boards according to another embodiment of the present invention will be described. According to an embodiment of the present invention, the upper and lower thermal insulation boards 300 and 100 may be formed as described above, except that the fixing unit 500 is used to fix the lower insulation board 100 to the inner wall 10 of the hull. Which is the same as the embodiment.

Referring to FIG. 12, the joint block 510 may be received in a block receiving groove 128 formed in the first upper surface reinforcing panel 120. A joint plate 515 for coupling with the first upper surface-strengthening panel 120 may be provided on the joint block 510. The fastening plate 515 may be provided in the shape of a plate having a predetermined area and may be welded or riveted to the upper surface of the joint block 510. Alternatively, the fastening plate 515 may be fabricated integrally with the joint block 510. The joint block 510 can be firmly supported on the first upper surface reinforcing panel 120 by the rivet 516 being fastened to the fastening plate 515 while the joint block 510 is received in the block receiving groove 128 . The fastening plate 515 may be made of a metal material such as stainless steel and the secondary barrier 200 may be welded to the fastening plate 515. The fastening portion 522 of the stud bolt 520 rotatably coupled to the joint block 510 penetrates the secondary barrier 200, the impact absorption panel 360 and the second bottom surface reinforcement panel 330, And may be protruded into the third anchoring bolt fastening hole 343 formed in the foam 310. And the fastening member 530 including the washer 531 and the nut 532 is fastened to the fastening portion 522 of the stud bolt 520 protruding from the third anchoring bolt fastening hole 343, And the lower insulating board 100 are firmly coupled. Although the shock absorbing panel 360 is disposed between the second barrier 200 and the second bottom reinforcing panel 330 in this embodiment, the shock absorbing panel 360 may be omitted.

1, the primary barrier 400 includes a strip-shaped second fixing strip 370 forming a closed curve formed on the upper surface of the upper insulating board 300 and a unitary primary barrier sheet 401 Are arranged adjacently, and the edge portions overlapping each other or the edge portions abutting each other are firmly fixed through welding and main welding.

The foregoing has shown and described specific embodiments. 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 in the appended claims.

10: inner wall of the hull, 11: level pad,
100: lower insulation board, 101: unit lower insulation board,
110: lower insulating foam, 111, 112, 113: bolt fastening hole,
120: first upper surface reinforcing panel, 130: first lower surface reinforcing panel,
150: foam plug, 160: first fixing strip,
170: anchoring block, 171: anchoring block receiving groove,
175: anchor bolt, 200: secondary barrier,
201: unit secondary barrier sheet, 210: wrinkle portion,
220: anchoring bolt through-hole, 300: upper insulation board,
301: unit upper insulation board, 310: upper insulation foam,
320: second upper surface reinforcing panel, 330: second lower surface reinforcing panel,
340: anchoring bolt fastening hole, 370: second fastening strip,
400: primary barrier, 500: fixed unit,
510: joint block, 511: ball socket,
520: stud bolt, 521: ball joint part,
530: fastening member.

Claims (9)

delete delete delete A primary barrier surrounding a space capable of receiving liquefied gas;
An insulation panel assembly surrounding the primary barrier and including an upper insulation board (300) and a lower insulation board (100); And
And a fixing unit for fixing the heat insulating panel assembly,
The fixed unit includes:
A joint block 510 coupled to the inner wall of the hull and provided with a ball socket 511;
A stud bolt 520 having a ball joint part 521 inserted into the ball socket and a fastening part 522 extending from the ball joint part and passing through the lower heat insulating board; And
A washer 531 fitted to the fastening portion and supported on the upper surface of the first bottom surface reinforcing panel 130 of the lower heat insulating board and a nut 532 fastened to the fastening portion to pressably support the washer, And a fastening member 530 pressingly supporting the reinforcing panel, wherein the washer has a hemispherical shape having a spherical surface 531a at a portion contacting the nut so that the stud bolt can easily perform a hinge movement,
The heat insulating panel assembly further includes a secondary barrier having a concave corrugated portion 210 which is laminated on the lower heat insulating board and bent downward,
The lower insulation board is formed by contacting the unit lower insulation boards in a lattice form in a square shape. A chamfer 123 is formed on the periphery of the upper surface of the unit lower insulation board so that the corners are inserted,
Wherein the upper insulating board comprises rectangular unit top insulating boards covering two neighboring unit lower insulating boards in a lattice form. 5. The method of claim 4,
The secondary barrier includes a plurality of unit secondary barrier sheets 201,
The unitary secondary barrier sheet is formed to have a size that covers at least one region of at least two unit bottom insulating boards and is formed with a band that forms a closed curve corresponding to the edge shape of the unit secondary barrier sheet joined to the upper surface of the lower insulating board And is welded to the first fixed strip (160) of the shape. 6. The method of claim 5,
And an anchoring block having an anchoring bolt protruded to fix the upper heat insulating board is coupled to an upper surface center of each unit lower heat insulating board. The method according to claim 6,
The anchoring bolt passes through the secondary barrier and is inserted into an anchoring bolt fastening hole formed in the upper heat insulating board. A nut and a washer are fastened to the end of the anchoring bolt to press the upper heat insulating board, And the lower heat insulating board are bound to each other. 8. The method of claim 7,
Wherein at least two anchor bolt fastening holes are provided on the unit upper heat-insulating board. 5. The method of claim 4,
And a second fixing strip for welding the primary barrier is provided on the upper surface of the upper insulation board.

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