KR101610255B1 - Anchor structure, lng storage tank and producing method thereof - Google Patents

Abstract

The present invention relates to an anchor structure capable of actively coping with hull deformation, a liquefied natural gas storage tank including an anchor structure, and a method of manufacturing a liquefied natural gas storage tank. According to an embodiment of the present invention, there is provided an anchor structure for connecting an inner wall of a liquefied natural gas storage tank with a seal wall, the anchor structure comprising: an anchor member configured to slide in a horizontal direction; And an insulating material formed around the anchor member.

Description

TECHNICAL FIELD [0001] The present invention relates to a liquefied natural gas storage tank including an anchor structure, an anchor structure, and a liquefied natural gas storage tank,

The present invention relates to a liquefied natural gas storage tank including an anchor structure, an anchor structure, and a method for manufacturing a liquefied natural gas storage tank, and more particularly, to a liquefied natural gas storage tank including an anchor structure and an anchor structure capable of actively coping with hull deformation Liquefied natural gas storage tanks and liquefied natural gas storage tanks.

In general, Liquefied Natural Gas (LNG) is a liquefied natural gas, which is one of the fossil fuels. Liquefied natural gas storage tanks are installed on the ground or buried in land, And portable storage tanks installed in transportation means such as ships.

The above-mentioned liquefied natural gas has a danger of explosion when exposed to impact, and is stored at a very low temperature. The storage tank for storing the liquefied natural gas has a structure in which impact resistance and liquid tightness are maintained firmly.

In contrast to terrestrial storage tanks which have little flow, the liquefied natural gas storage tanks installed in ships with a flow must take measures against mechanical stress due to flow. However, since a liquefied natural gas storage tank installed in a vessel provided with a measure against mechanical stress can be used for a land storage tank as a matter of course, the structure of a liquefied natural gas storage tank installed in a ship will be described as an example.

First, an example of a liquefied natural gas storage tank according to the prior art will be described with reference to FIG.

1 is a view showing a part of an example of a liquefied natural gas storage tank according to the prior art.

1, the liquefied natural gas storage tank 10 is provided with secondary insulation walls 22, 42 and primary insulation walls 24, 44 sequentially on the bottom surface of the hull, Secondary sealing walls 23 and 43 are provided between the heat insulating walls 22 and 42 and the primary heat insulating walls 24 and 44 to seal them therebetween. Further, a primary sealing wall 50 is provided on the upper part of the primary heat insulating walls 24, 44.

The liquefied natural gas storage tank 10 constructed as described above includes a corner structure 20 provided at an inner corner portion thereof, an anchor structure 30 provided at a predetermined interval on the bottom surface thereof, And a planar structure 40 inserted between the structures 30 so as to be slidably installed. At this time, the corner structure 20, the anchor structure 30, and the planar structure 40 are assembled in the storage tank 10 after being previously manufactured as respective unit modules, and the primary sealing wall 50, (LNG) can be stored in the inner space by providing the insulating wall with liquid-tightness.

The corner structure 20, the anchor structure 30 and the planar structure 40 are fixed to the respective primary insulation walls 24, 34 and 44, the secondary insulation walls 22, 32 and 42, 23, and 43, which are collectively referred to as the heat insulating wall structures 20, 30, and 40.

On the other hand, each of the heat insulating wall structures (20, 30, 40) is formed integrally with the secondary sealing walls of the unit modules and the contact surfaces of the heat insulating walls by bonding with an adhesive. Typically, the secondary insulation walls 22 and 42 are made of a polyurethane foam, which is an insulating material, and a plate material attached to the lower part thereof. The primary heat insulating walls 24 and 44 are made of a polyurethane foaming material and a plate material adhered thereon with an adhesive. The primary heat insulating walls 24, 34, and 44 are installed on the secondary heat insulating walls 22, 32, and 42, respectively.

A flange 42a is formed at a lower end of the secondary heat insulating wall 42 of the planar structure 40 so as to be larger than the secondary heat insulating wall 42. [ The flange 42a is inserted into a groove formed in the lower end of the anchor structure 30, and is installed to be capable of sliding movement.

In the illustrated example, each anchor structure 30 has an anchor support rod 36, a lower fixing member 37, an anchor secondary insulation wall 32, and an anchor primary insulation wall 34, and the anchor 2 Secondary sealing walls (23, 43) are connected between the secondary insulation wall (32) and the anchor primary insulation wall (34). One end of the anchor support rod 36 is connected to the primary sealing wall 50 and the other end is connected to the inner hull wall 420 by the fixing member 37.

Meanwhile, the anchor structure 30 is welded to the upper end of the anchor support rod 36 by welding the primary seal wall 50.

The anchor structure 30 is located at the connection point of the adjacent planar structures 40 and interconnects the planar structures 40. The planar structure 40 includes a hull inner wall 420 or a partition wall 440 . Further, the fixing member 37 of the anchor structure 30 is provided around the anchor support rod 36. [

Next, another example of a liquefied natural gas storage tank according to the prior art will be described with reference to Figs. 2 and 3. Fig. 2 is a view showing an anchor member of a liquefied natural gas storage tank of another example according to the prior art, and Fig. 3 is a view showing a part of a liquefied natural gas storage tank of another example according to the prior art.

As shown in FIG. 2, the anchor member 110 of another example of the liquefied natural gas storage tank according to the prior art has a truncated conical shape in which the upper portion is formed flat. The truncated conical anchor member 110 has a body whose upper surface side is closed and whose lower surface side is open, and which becomes wider toward the inner surface of the storage tank.

A fixing portion 112 for fixing the anchor member 110 is formed on a lower surface of the conical body 111 of the anchor member 110 on the inner surface of the storage tank, that is, the inner wall or the surface of the partition.

A plurality of through holes 112a are formed in the fixing portion 112 at predetermined intervals so that a plurality of stud bolts fixedly mounted on the inner surface of the storage tank 10 are formed in the through holes 112a, (61) may be respectively inserted and fixed by the nuts (62).

A step is formed on the upper part of the conical body 111 of the anchor member 110 to form two bonding portions 113 and 114. The first bonding film 113 is welded to the first bonding film 113 And the second sealing film 52 is fixedly welded to the second bonding portion 114. As shown in Fig.

The liquefied natural gas storage tank according to the prior art of FIG. 1 has a structure of a heat insulating wall structure composed of primary and secondary heat insulating walls and primary and secondary sealing walls, so that the structure is complicated and a structure for connecting the secondary sealing walls It is complicated, and the operation of the heat insulating wall is not easy. In addition, there is a concern that the structure and installation work of the connecting portion of the anchor portion and the secondary sealing wall are complicated and the reliability of the sealing of the LNG is reduced in the secondary sealing wall.

In the liquefied natural gas storage tanks according to the prior art of Figs. 2 and 3, since the joints and the fixing portions of the anchor members are fixed, the active countermeasures due to the deformation of the hull and the stress concentration of the LNG- , There is a problem that the shape of the anchor member is complicated and the preparation thereof is deteriorated.

Prior Art: Korean Patent No. 10-0499710 (Registered on Jun. 28, 2005)

It is an object of the present invention to provide an anchor structure and an anchor member of a liquefied natural gas storage tank capable of improving easiness and preparation of installation work and capable of eliminating stress concentration in an adiabatic system that is actively coped with hull deformation and subjected to a load of LNG .

According to an aspect of the present invention, there is provided an anchor structure for connecting an inner wall of a liquefied natural gas storage tank and a seal wall, the anchor structure comprising: an anchor structure configured to slide in a horizontal direction, absence; And a heat insulating material formed around the anchor member, wherein the sealing wall includes a primary sealing wall directly contacting the liquefied natural gas and a secondary sealing wall positioned below the primary sealing wall, and the anchor member There is provided an anchor structure to which the primary sealing wall and the secondary sealing wall are joined.

In particular, the joining portion may include a first joining portion to which the secondary sealing wall is joined and a second joining portion to which the primary sealing wall is joined.

Further, a supporting plate may be provided between the primary sealing wall and the secondary sealing wall to maintain a constant distance between the primary sealing wall and the secondary sealing wall.

Further, the anchor member may include an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material.

The first joint portion may include a first cap portion to which the secondary sealing wall is joined and a first flange portion that extends radially from a lower end of the first cap portion. The first flange portion abuts on the anchor support plate It may not be fixed to the anchor support plate.

The anchor member may further include an anchor support cap having a second cap portion and a second flange portion radially extending from a lower end of the second cap portion. The second flange portion covers the first flange portion, An edge of the flange portion can be fixed to the anchor support plate by welding.

Further, the anchor member may include an anchor support rod passing through the anchor structure, and the anchor structure may further include an anchor support bolt cap located at a lower portion of the heat insulating material and having a through hole through which the anchor support rod can pass can do.

In addition, a screw groove is formed in the lower portion of the anchor support rod, so that the lower portion of the anchor support rod can be engaged with the anchor member fixing nut after passing through the through hole.

According to another aspect of the present invention, there is provided a storage tank for storing liquefied natural gas, comprising: an insulating wall formed on an inner wall of the storage tank to form a heat insulating layer; A sealing wall installed on an upper surface of the heat insulating wall to liquid-tighten the liquefied natural gas; And an anchor structure that connects the inner wall of the storage tank and the seal wall, wherein the anchor structure includes an anchor member configured to slide in a horizontal direction, the abutment being joined to the seal wall.

In particular, the sealing wall may include a primary sealing wall directly contacting the liquefied natural gas and a secondary sealing wall positioned below the primary sealing wall, wherein the bonding portion comprises a first bonding portion to which the secondary sealing wall is bonded, And a second joint portion to which the primary seal wall is bonded.

Further, the anchor structure may further include a heat insulating material formed around the anchor member, the anchor member including an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material.

The first joint portion may include a first cap portion to which the secondary sealing wall is joined and a first flange portion that extends radially from a lower end of the first cap portion. The first flange portion abuts on the anchor support plate It may not be fixed to the anchor support plate.

The anchor member may further include an anchor support cap having a second cap portion and a second flange portion radially extending from a lower end of the second cap portion.

The second flange portion may cover the first flange portion and the edge of the second flange portion may be fixed to the anchor support plate by welding.

The anchor structure may further include a heat insulator formed around the anchor member, wherein the anchor member includes an anchor support rod passing through the anchor structure, the anchor structure being located at a lower portion of the heat insulator, And an anchor support bolt cap having a through hole that can penetrate the anchor support bolt cap.

In addition, a screw groove is formed in the lower portion of the anchor support rod, so that the lower portion of the anchor support rod can be engaged with the anchor member fixing nut after passing through the through hole.

According to another aspect of the present invention, there is provided a method of manufacturing a liquefied natural gas storage tank, comprising: providing an insulating wall including an anchor structure on an inner wall of the storage tank; Fixing the secondary sealing wall to the first joint portion of the anchor structure and installing the secondary sealing wall on the upper surface of the heat insulating wall; Securing a second abutment on top of the first abutment; And fixing the primary sealing wall to the second joint to thereby install the primary sealing wall, wherein the first joint is configured to be slidable in the horizontal direction.

In particular, the anchor structure may include an anchor member including the first joint and the second joint; And a heat insulating material formed around the anchor member.

Further, the anchor member may include an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material.

The first joint portion may include a first cap portion to which the secondary sealing wall is joined and a first flange portion that extends radially from a lower end of the first cap portion. The first flange portion abuts on the anchor support plate It may not be fixed to the anchor support plate.

The anchor member may further include an anchor support cap having a second cap portion and a second flange portion radially extending from a lower end of the second cap portion. The second flange portion covers the first flange portion, An edge of the flange portion can be fixed to the anchor support plate by welding.

The anchor structure may further include an anchor bolt cap located at a lower portion of the heat insulating material and having a through hole through which the anchor supporting rod can pass.

In addition, a screw groove is formed in the lower portion of the anchor support rod, so that the lower portion of the anchor support rod can be engaged with the anchor member fixing nut after passing through the through hole.

The step of installing the heat insulating wall may include inserting a stud bolt previously provided in the inner wall of the through hole of the anchor structure, and fixing the stud bolt with a nut.

According to the embodiment of the present invention, it is possible to actively cope with the deformation of the hull by allowing the joining portion of the anchor member to be slid in the horizontal direction to be able to act on the deformation of the LNG Stress concentration in the adiabatic system subjected to the load can be solved.

The metal reinforcement plate may be provided between the first anchor bottom plate and the second anchor bottom plate to improve the strength of the anchor structure.

1 is a view showing a part of an example of a liquefied natural gas storage tank according to the prior art.
2 is a view showing an anchor member of a liquefied natural gas storage tank of another example according to the prior art.
3 is a view showing a part of a liquefied natural gas storage tank of another example according to the prior art.
4 is a cross-sectional view of an exemplary vessel equipped with a liquefied natural gas storage tank according to an embodiment of the present invention.
5 is an enlarged view of a portion A in Fig.
6 is a plan view of an anchor structure according to an embodiment of the present invention.
7 is a cross-sectional view of an anchor structure according to an embodiment of the present invention.
8 is an exploded view of an anchor structure according to an embodiment of the present invention.
9 is a sectional view of an anchor member according to an embodiment of the present invention.
10 is an enlarged view of a portion A in Fig.
11 is an enlarged view of a portion B in Fig.
12 is a flowchart illustrating a method of manufacturing a liquefied natural gas storage tank according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

4 and 5, a structure of a ship having a liquefied natural gas storage tank according to an embodiment of the present invention will be described. FIG. 4 is a cross-sectional view of an exemplary ship having a liquefied natural gas storage tank according to an embodiment of the present invention, and FIG. 5 is an enlarged view of a portion A of FIG.

4, the liquefied natural gas storage tank according to the present invention may be installed in the ship 400, and the ship 400 may include an outer wall 410 forming an outer shape, And has a double structure of an inner wall 420 formed therein. The inner wall 420 and the outer wall 410 of the ship 400 are connected to each other by the connection rib 430 and may be integrally formed with the inner wall 420. In some cases, have. On the other hand, only the upper part of the ship 400 can be formed as a single deck, and its shape can be variously changed according to the size of the ship 400 or the storage capacity.

The inside of the inner wall 420 may be divided by at least one partition wall 440, and the partition 440 may form a copper dam.

Here, the sealing wall 480 may be formed so that the liquefied natural gas (LNG) stored in the storage tank is liquid-tight and in contact with the liquefied natural gas (LNG), and the corrugated portion is formed to correspond to the temperature change according to the line load of the cryogenic LNG. The sealing wall 480 is connected to the inner wall 420 or the partition wall 440 of the vessel 400 by a plurality of anchor structures 450. Therefore, the sealing wall 480 is not movable relative to the hull.

In addition, between the sealing wall 480 and the inner wall 420, the heat insulating wall structures 460, 450 and 470, which are modules constituting a layer of the heat insulating wall, are positioned. The heat insulating wall structures 460, 450 and 470 are located between the inner walls 420 or between the inner walls 440 and the sealing wall 480 to form a heat insulating wall for inspecting the storage tank 10.

The heat insulating wall structures 460, 450, and 470 are each formed of a module and include a corner structure 460 positioned at a corner portion, an anchor structure 450 having inner walls of the hull at regular intervals, a corner structure 460, And a planar structure 470 provided on a plane between the anchor structures 450.

As described above, in the present invention, the sealing wall 480 is mainly supported by the anchor structure 450 and the planar structure 470 supports only the load of the LNG received by the sealing wall 480 and has a direct coupling relation with the sealing wall 480 none.

The anchor structure 450 is installed on the inner wall 420 or the partition wall 440 of the storage tank and is fixed by an anchor member passing through the anchor structure 450.

The planar structure 470 is inserted between the anchor structure 450 or the corner structure 460 and is installed in the inner wall 420 of the tank by a plurality of connecting means. That is, the planar structure 470 is installed by fastening a flat bottom plate of the planar structure 470 with a nut to a stud bolt welded to the inner wall 420 of the hull. The planar structure 470 may be formed with a gap (1 to 4 mm) spaced apart from the side surface of the corner structure 460 or the anchor structure 450 by a predetermined distance, So that the deformation amount can be absorbed. Accordingly, the planar structure 470 can be slightly moved (slid) in the horizontal direction with respect to the bottom surface.

The planar structure 470 includes a planar bottom plate 471 that is in contact with the inner wall 420, a planar thermal insulation material 472 formed on the upper surface of the planar bottom plate 471, And a plate 473.

Here, the flat bottom plate 471 and the flat top plate 473 are made of a plywood material, and the flat heat insulating material 472 is formed of a polyurethane foam.

A sealing wall 480 directly contacting the liquefied natural gas is provided on the upper part of the heat insulating wall structures 450 and 470. The sealing wall 480 is composed of a primary sealing wall 481 in direct contact with the LNG and a secondary sealing wall 482 under the primary sealing wall 481. The primary sealing wall 481, And the secondary sealing walls 482 are spaced apart from each other by a predetermined height. In this case, the primary sealing wall 481 and the secondary sealing wall 482 may be damaged by contact, so that the primary sealing wall 481 and the secondary sealing wall 482 may be damaged by the primary sealing A support plate 483 for maintaining a constant distance between the wall 481 and the secondary sealing wall 155 is provided.

The sealing wall 480 is formed with a plurality of corrugated portions for preventing shrinkage and damage during stretching. The corrugated portion is prevented from being damaged due to thermal deformation applied to the sealing wall 480 due to elongation or contraction due to the temperature change of the LNG under the line load. Further, the sealing wall 480 is fixed to the anchor member of the anchor structure 450 by welding.

5, the sealing wall 480 is formed of the dual structure of the primary sealing wall 481 and the secondary sealing wall 482, but it is also possible to stack the multi-layer structure in three or more layers.

Next, an anchor structure and an anchor member according to an embodiment of the present invention will be described with reference to Figs. 6 to 11. Fig. FIG. 6 is a plan view of an anchor structure according to an embodiment of the present invention, FIG. 7 is a sectional view of an anchor structure according to an embodiment of the present invention, FIG. 8 is an exploded view of an anchor structure according to an embodiment of the present invention, FIG. 10 is an enlarged view of the portion A of FIG. 5, and FIG. 11 is an enlarged view of the portion B of FIG.

6 to 8, the anchor structure according to the embodiment of the present invention includes an anchor member 710, a first anchor upper plate 720, a second anchor upper plate 730, a heat insulating material 740, An anchor bottom plate 750, an anchor support bolt cap 760, a second anchor bottom plate 770, and an anchor member fixing nut 780.

The anchor member 710 is a member that connects the inner wall of the liquefied natural gas storage tank and the seal wall to fix the seal wall. The anchor member according to the embodiment of the present invention is configured such that the abutting portion in contact with the sealing wall can slide in the horizontal direction. Therefore, as the joining portion slides in the horizontal direction when the ship is shaken, it can actively cope with deformation of the hull.

9, the anchor member 710 includes a first joint 711, a second joint 712, an anchor support cap 713, an anchor support plate 714, and an anchor support rod 715 do.

As shown in Fig. 9, the anchor support rod 715 and the anchor support plate 714 are welded vertically.

The first bonding portion 711 is a portion to which the secondary sealing wall 482 is bonded and is composed of a cap portion to which the secondary sealing wall 482 is bonded and a flange portion radially extending from the lower end of the cap portion. The first joint 711 is placed on the anchor support plate 714 so that the first flange of the first joint 711 is in contact with the anchor support plate 714 while the first joint 711 is in contact with the anchor support plate 714 It is not fixed. The anchor support cap 713 is placed on the first joint 711 and the edge of the anchor support cap 713 is fixed to the anchor support plate 714 by welding. The anchor support cap 713 is composed of a cap portion and a flange portion extending radially from the lower end of the cap portion, and the edge of the flange portion of the anchor support cap 713 is welded to the anchor support plate 714 and the flange portion of the anchor support cap 713 covers the flange portion of the first joint portion 711. [ Therefore, the first joint 711 can slide in the horizontal direction within the anchor support cap 713. [ That is, as the first joining portion 711 slides in the horizontal direction when the ship is shaken, it can actively cope with deformation of the hull.

The second bonding portion 712 is located at the upper portion of the first bonding portion 711 as a portion to which the primary sealing wall 481 is bonded. The second joint 712 may be fixed to the upper portion of the first joint 711 by welding. In the process of manufacturing the liquefied natural gas storage tank, the anchor structure 450 is formed in a state in which the second joint portion 712 is not attached to the anchor member 710, and then the anchor structure 450 is disposed in the liquefied natural gas storage tank The secondary sealing wall 482 is fixed to the first bonding portion 711 by welding and then the second bonding portion 712 is fixed to the upper portion of the first bonding portion 711 by welding, The primary sealing wall 481 can be fixed to the secondary joint 712 by welding.

The anchor support rod 715 penetrates through the anchor structure 450 and is formed with a thread groove at the lower portion thereof so as to be coupled with the anchor member fixing nut 780 so that the anchor member 710 can be coupled to other components of the anchor structure 450 .

The heat insulating material 740 is integrally formed around the anchor member 710 by a polyurethane foam or a reinforced polyurethane foam or the like. The first anchor upper plate 720 and the second anchor upper plate 730 are attached to the upper end of the heat insulating material 740 and the first anchor lower plate 750 and the second anchor lower plate 730 are attached to the lower end of the heat insulating material 740 770). The first anchor top plate 720, the second anchor top plate 730, the first anchor bottom plate 750, and the second anchor bottom plate 770 may be plywood.

The anchor support bolt cap 760 is disposed between the first anchor bottom plate 750 and the second anchor bottom plate 770 and comprises a second cap portion and a second flange extending radially from the lower end of the second cap portion. The second cap portion is formed with a through hole so that the anchor support rod 715 can pass through.

8, the first anchor upper plate 720, the second anchor upper plate 730, the heat insulating material 740, the first anchor bottom plate 750, and the second anchor bottom plate 770 are also anchored A through hole is formed so that the rod 715 can penetrate. Accordingly, the anchor support rod 715 of the anchor member 710 may include a first anchor top plate 720, a second anchor top plate 730, a heat insulating material 740, a first anchor bottom plate 750, The anchor member 710 and the anchor support rod 715 are connected to each other by a screw groove of the lower portion of the anchor support rod 715 after passing through the anchor structure 760 and the second anchor lower plate 770, Elements.

10 is an enlarged view of a portion A in Fig. 10 is a view showing a portion where the anchor support rod 715 and the anchor member fixing nut 780 are coupled. 10, the anchor supporting bolt cap 760 is formed in a cap shape to be coupled with the anchor supporting rod 715, and the first anchor lower plate 750 and the second anchor lower plate 770 The hole is formed larger than the cross-sectional area of the anchor support rod 715, so that the anchor support rod 715 can move up and down. That is, the portion where the anchor supporting bolt cap 760 is engaged with the anchor supporting rod 715 is not tightened but is cap-shaped, and the first anchor bottom plate 750 and the second anchor bottom plate 770 are spaced apart from the anchor supporting rod So that the lower portion of the anchor support rod can move up and down. When the liquefied natural gas storage tank is filled with a large amount of liquefied natural gas, pressure is applied to the anchor structure 450 due to the load of the liquefied natural gas, and the heat insulating material 740 of the polyurethane foam material shrinks. The support rod 715 does not contract. Therefore, in the embodiment of the present invention, the anchor support rod 715 can be moved up and down, thereby relieving the stress concentration of the adiabatic system that receives the load of the LNG.

7 and 8, the anchor support bolt cap 760 may be inserted between the first anchor lower plate 750 and the second anchor lower plate 770 to function as a metal reinforcement plate. In FIG. 8, the anchor supporting bolt cap 760 is shown in a circular shape, but it may be formed in a rectangular shape like the first anchor lower plate 750 and the second anchor lower plate 770.

6 and 8, the first anchor top plate 720, the second anchor top plate 730, the heat insulating material 740, the first anchor bottom plate 750, the anchor supporting bolt cap 760, And the second anchor bottom plate 770, through holes are formed to fix the anchor structure to the hull. In Figs. 6 and 8, four holes are shown as being perforated, but the present invention is not limited thereto.

11 is an enlarged view of a portion B in Fig. A stud bolt 1101 is fixed in advance to an inner wall 420 of the liquefied natural gas storage tank and a partition wall 440 at a position where the anchor structure 450 is to be installed. 11, after the stud bolts 1101 are inserted into the through holes of the first anchor lower plate 750, the anchor supporting bolt cap 760, and the second anchor lower plate 770, the nuts 1102 ).

Next, a method of manufacturing a liquefied natural gas storage tank according to an embodiment of the present invention will be described with reference to FIG. 12 is a flowchart illustrating a method of manufacturing a liquefied natural gas storage tank according to an embodiment of the present invention.

12, an insulation wall including an anchor structure 450 is installed on the inner wall 420 and the partition wall 440 of the liquefied natural gas storage tank (S1210). In step S1210, the anchor structure 450, the corner structure 460, and the planar structure 470 are fixed to the inner wall 420 and the partition wall 440 of the liquefied natural gas storage tank. At this time, stud bolts previously installed in the inner wall 420 of the liquefied natural gas storage tank and the partition wall 440 are inserted into the through holes of the anchor structure 450, the corner structure 460 and the planar structure 470 It can be fixed with a nut.

Then, the secondary sealing wall is fixed to the first bonding portion 711 of the anchor structure 450, and the secondary sealing wall is provided on the upper surface of the heat insulating wall (S1220). Then, the second bonding portion 712 is fixed to the upper portion of the first bonding portion 711 by welding (S1230), and the primary bonding wall is fixed to the second bonding portion 712 to provide a primary sealing wall (S1240 ).

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

420: inner wall
410: outer wall
430: connecting rib
440:
480: sealing wall
481: primary sealing wall
482: Secondary sealing wall
450: anchor structure
460: corner structure
470: planar structure
710: Anchor member
720: first anchor top plate
730: Second anchor top plate
740: Insulation
750: first anchor bottom plate
760: Anchor support bolt cap
770: second anchor bottom plate
780: Anchor member holding nut
711: first connection
712:
713: Anchor support cap
714: Anchor support plate
715: Anchor support rod

Claims (24)

An anchor structure for connecting an inner wall of a liquefied natural gas storage tank and a sealing wall,
An anchor member configured to be slidable in a horizontal direction; And
And a heat insulating material formed around the anchor member,
Wherein the sealing wall includes a primary sealing wall directly contacting the liquefied natural gas and a secondary sealing wall positioned below the primary sealing wall, wherein the primary sealing wall and the secondary sealing wall are joined to each other And,
Wherein the anchor member includes an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material,
The joining portion includes a first joining portion to which the secondary sealing wall is joined and a second joining portion to which the primary sealing wall is joined,
Wherein the first joint portion comprises a first cap portion to which the secondary sealing wall is joined and a first flange portion radially extending from a lower end of the first cap portion, the first flange portion contacting the anchor support plate, Wherein the anchor structure is not secured to the support plate. delete The method according to claim 1,
Wherein a supporting plate for maintaining a constant distance between the primary sealing wall and the secondary sealing wall is provided. delete delete The method according to claim 1,
Wherein the anchor member further comprises an anchor support cap composed of a second cap portion and a second flange portion radially extending from a lower end of the second cap portion,
Wherein the second flange portion covers the first flange portion and the edge of the second flange portion is fixed to the anchor support plate by welding. The method according to claim 1,
Wherein the anchor structure further includes an anchor support bolt cap located at a lower portion of the heat insulating material and having a through hole through which the anchor support rod can pass. The method of claim 7,
Wherein a screw groove is formed in a lower portion of the anchor support rod so that the lower portion of the anchor support rod penetrates the through hole and is engaged with the anchor member fixing nut. A storage tank for storing liquefied natural gas,
An insulating wall provided on an inner wall of the storage tank to form a heat insulating layer;
A sealing wall installed on an upper surface of the heat insulating wall to liquid-tighten the liquefied natural gas;
And an anchor structure connecting an inner wall of the storage tank and the sealing wall,
Wherein the anchor structure includes an anchor member configured to be able to slide in a horizontal direction at a joint portion joined to the seal wall; And a heat insulating material formed around the anchor member,
Wherein the sealing wall comprises a primary sealing wall directly contacting the liquefied natural gas and a secondary sealing wall located below the primary sealing wall,
Wherein the anchor member includes an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material,
The joining portion includes a first joining portion to which the secondary sealing wall is joined and a second joining portion to which the primary sealing wall is joined,
Wherein the first joint portion comprises a first cap portion to which the secondary sealing wall is joined and a first flange portion radially extending from a lower end of the first cap portion, the first flange portion contacting the anchor support plate, And not secured to the support plate. delete delete delete The method of claim 9,
Wherein the anchor member further comprises an anchor support cap comprising a second cap portion and a second flange portion radially extending from a lower end of the second cap portion. 14. The method of claim 13,
Wherein the second flange portion covers the first flange portion and the edge of the second flange portion is fixed to the anchor support plate by welding. The method of claim 9,
Wherein the anchor structure further comprises an anchor support bolt cap located at a lower portion of the heat insulating material and having a through hole through which the anchor support rod can pass. 16. The method of claim 15,
Wherein a screw groove is formed in a lower portion of the anchor support rod so that a lower portion of the anchor support rod penetrates through the through hole and is engaged with an anchor member fixing nut. A method of manufacturing a liquefied natural gas storage tank,
A step of installing an insulating wall including an anchor structure on the inner wall of the storage tank
Fixing the secondary sealing wall to the first joint portion of the anchor structure and installing the secondary sealing wall on the upper surface of the heat insulating wall;
Securing a second abutment on top of the first abutment;
And fixing the primary sealing wall to the second joint to thereby install the primary sealing wall,
The first joint is configured to be slidable in a horizontal direction,
Wherein the anchor structure includes an anchor member including the first joint and the second joint; And a heat insulating material formed around the anchor member,
Wherein the anchor member includes an anchor support rod passing through the anchor structure; And an anchor support plate vertically connected to the anchor support rod and positioned at an upper portion of the heat insulating material,
Wherein the first joint portion comprises a first cap portion to which the secondary sealing wall is joined and a first flange portion radially extending from a lower end of the first cap portion, the first flange portion contacting the anchor support plate, Is not fixed to the support plate. delete delete delete 18. The method of claim 17,
Wherein the anchor member further comprises an anchor support cap composed of a second cap portion and a second flange portion radially extending from a lower end of the second cap portion,
Wherein the second flange portion covers the first flange portion and the edge of the second flange portion is fixed to the anchor support plate by welding. 18. The method of claim 17,
Wherein the anchor structure further includes an anchor support bolt cap located at a lower portion of the heat insulating material and having a through hole through which the anchor support rod can pass. 23. The method of claim 22,
Wherein a screw groove is formed in a lower portion of the anchor support rod so that a lower portion of the anchor support rod penetrates through the through hole and is engaged with an anchor member fixing nut. 18. The method of claim 17,
The step of installing the heat insulating wall
Inserting a stud bolt previously provided in the inner wall into a through hole of the anchor structure, and fixing the stud bolt with a nut.

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