KR101887826B1 - Liquefied gas storage tank including low thermal conduction supporting structure of cryogenic tank - Google Patents

Abstract

The present invention relates to a liquefied gas storage tank storing liquefied gas. The liquefied gas storage tank according to one embodiment of the present invention comprises: an interior container storing liquefied gas therein; an exterior container provided with the interior container therein; and a support module provided between the interior container and the exterior container, and having a contact member which is formed in the shape of a bar having a surface convex outward on one side and a flat surface on the other side.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a liquefied gas storage tank including a support structure for minimizing heat conduction in a cryogenic tank,

The present invention relates to a liquefied gas storage tank in which a liquefied gas is stored.

Recently, the consumption of liquefied gas such as Liquefied Natural Gas (LNG) and Liquefied Petroleum Gas (LPG) has been rapidly increasing worldwide. The liquefied gas obtained by liquefying the gas at a low temperature has an advantage of being able to increase the storage and transport efficiency because the volume becomes very small as compared with the gas. In addition, liquefied natural gas (LNG) and other liquefied gases can be used as eco-friendly fuels that can reduce or eliminate air pollutants during the liquefaction process.

In other words, liquefied natural gas is the liquefied natural gas extracted from the gas field and mainly composed of methane. When LNG is lowered in temperature or liquefied under pressure, the volume is reduced to about 1/600, which is advantageous in terms of space efficiency. However, the boiling point is about minus 162 degrees Celsius, so it is charged in a specially insulated tank or vessel for transportation and storage, . In addition, since it is superior in calorific value to price, it is attracting attention as alternative energy for petroleum, and the demand of LNG as clean energy is also increasing.

1 is a sectional view showing an example of a general liquefied gas storage tank 1. 1, the liquefied gas storage tank 1 includes an inner vessel 2 and an outer vessel 3 spaced from the inner vessel 2 and surrounding the inner vessel 2, The interspace 4 of the outer vessel 3 may be provided in vacuum to block heat transfer by conduction and convection from the outside. In this case, the interspace 4 is provided with a support unit 5 for supporting the inner container 2 away from the outer container 3. [

The support unit 5 is required to have a high thermal insulation property in order to minimize the vaporization of the liquefied gas in the liquefied gas storage tank 1. Further, the inner container 2, which is in direct contact with the liquefied gas at a cryogenic temperature, has a greater degree of contraction and expansion due to heat than the outer container 3. Therefore, the supporting unit 5 is required to be provided so as to minimize the influence of relative movement due to heat shrinkage and difference in degree of expansion between the inner container 2 and the outer container 3.

The present invention is to provide a liquefied gas storage tank capable of increasing the heat insulation efficiency between inside and outside.

It is another object of the present invention to provide a liquefied gas storage tank capable of minimizing the influence of relative movement caused by heat shrinkage and expansion degree difference between an inner vessel and an outer vessel.

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

The present invention provides a liquefied gas storage tank in which liquefied gas is stored. According to one embodiment, the liquefied gas storage tank comprises: an inner vessel in which liquefied gas is stored; An outer container in which the inner container is provided; And a support module provided between the inner container and the outer container and having a contact member provided on one surface thereof in an outwardly convex curved surface and on the opposite surface of the one surface in a flat bar shape.

The contact member may be provided in a semicircular shape in cross section cut in a direction perpendicular to the longitudinal direction.

The shape of the cross section cut in the direction perpendicular to the longitudinal direction of the contact member may be equally provided along the longitudinal direction.

The supporting module further includes a first supporting unit provided between the inner container and the outer container and supporting the inner container, wherein the contact member is positioned between the first supporting unit and the inner container Wherein the first support unit includes an elastic member provided with a material having a higher elasticity than the inner container and the outer container and fixed to the outer container, wherein the contact member is disposed between the inner container and the elastic member, Or may be provided in plurality.

The contact member provided between the inner container and the elastic member may be disposed such that the one surface is in contact with the inner container and the opposite surface is in contact with the elastic member.

The contact member may be coupled to the elastic member by a fastening member including a bolt

The fastening member may be provided to be spaced apart from the inner container.

Wherein the contact member has a bolt hole penetrating the one surface and the opposite surface and into which the bolt is inserted; Wherein the bolt holes include a first region and a second region that are diametrically different from each other, wherein the first region is provided adjacent to the one face than the second region and is provided with a diameter larger than the diameter of the second region .

Wherein one end and the other end of the elastic member are fixed in contact with the outer container and are provided in a bent shape such that an area between the one end and the other end protrudes in a direction toward the inner container, And may be arranged to be arranged along the circumferential direction of the container.

The contact member may be disposed at a position opposed to the intermediate region of the elastic member so that the longitudinal direction is parallel to a direction perpendicular to the circumferential direction of the inner container.

The elastic member may include a first contact portion and a second contact portion which are provided in a plate shape having a plurality of curved surfaces, the elastic contact member contacting the inner surface of the outer container; A contact member contact portion provided between the first contact portion and the second contact portion and contacting the contact member; A first connection portion provided between the first contact portion and the contact member contact portion and provided in a flat plate shape; A second connection portion provided between the second contact portion and the contact member contact portion and provided in a flat plate shape; A first curved portion provided between the first contact portion and the first connection portion and having a convex curved plate shape in an outward direction of the outer container; A second curved surface portion provided between the second contact portion and the second connection portion and having a convex curved plate shape in an outward direction of the outer container; A third curved portion provided between the first connection portion and the contact member contact portion and having an inwardly convex curved plate shape; And a fourth curved portion provided between the second connection portion and the contact member contact portion and having an inwardly convex curved plate shape.

The first support units may be provided in a plurality and arranged along the circumferential direction of the inner container.

The support module further includes a second support unit having a configuration different from that of the first support unit, wherein the first support unit supports the upper portion of the inner container, and the second support unit supports the lower portion of the inner container As shown in FIG.

The second support unit includes a base extending in a direction toward the inner container from the inner side of the outer container, and the contact member may be provided in a single or a plurality of spaces between the inner container and the base.

The contact member provided between the inner container and the base may be disposed such that the one surface is in contact with the inner container and the opposite surface is in contact with the base.

The contact member provided between the inner container and the base may be provided so that the one surface is bent to contact the outer surface of the inner container along the periphery of the inner container.

The contact member provided between the inner container and the base may be arranged along a direction in which the longitudinal direction is perpendicular to the circumferential direction of the inner container.

A plurality of the contact members provided between the inner container and the base may be arranged along the circumferential direction of the inner container.

The second support unit includes a first protrusion member protruding in a direction toward the inner container from the inner side surface of the outer container and spaced apart from each other along a direction perpendicular to the circumferential direction of the outer container, Wow; And a third projecting member projecting from the outer side surface of the inner container to be inserted between the first projecting member and the second projecting member and between the first projecting member and the inner container and between the first projecting member and the second projecting member, And the contact member may be provided between the inner container and between the first projecting member and the third projecting member and between the second projecting member and the third projecting member, respectively.

The third projecting member may be provided to be spaced apart from the outer container.

The space between the inner container and the outer container may be provided in a vacuum state.

The liquefied gas storage tank according to the embodiment of the present invention can increase the heat insulation efficiency between inside and outside.

In addition, the liquefied gas storage tank according to the embodiment of the present invention can minimize the influence of relative movement due to heat shrinkage and difference in degree of expansion between the inner container and the outer container.

1 is a cross-sectional view showing an example of a general liquefied gas storage tank.
2 is a perspective view schematically showing an example of a ship provided with a liquefied gas storage tank according to an embodiment of the present invention.
FIG. 3 is a longitudinal sectional view of the liquefied gas storage tank of FIG. 2. FIG.
Fig. 4 is a cross-sectional view of the liquefied gas storage tank of Fig. 2 taken in a direction perpendicular to the longitudinal direction.
FIG. 5 is a perspective view showing the contact member of FIG. 3 in such a manner that the surface facing the inner container is positioned on the upper side.
FIG. 6 is a perspective view showing the elastic member of FIG. 3;
Fig. 7 is an exploded view showing the contact member and the first supporting unit of Fig. 3;
8 is a cross-sectional view of the contact member of FIG. 5 viewed in the AA direction.
9 to 12 are longitudinal sectional views of a liquefied gas storage tank according to another embodiment of the present invention.
Fig. 13 is a view of the contact member and the second supporting unit of Fig. 10 viewed in the BB direction. Fig.
Fig. 14 is a view of the contact member and the second supporting unit of Fig. 12 viewed in the CC direction. Fig.

Other advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

Unless defined otherwise, all terms (including technical or scientific terms) used herein have the same meaning as commonly accepted by the generic art in the prior art to which this invention belongs. Terms defined by generic dictionaries may be interpreted to have the same meaning as in the related art and / or in the text of this application, and may be conceptualized or overly formalized, even if not expressly defined herein I will not.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. As used herein, the terms' comprise 'and / or various forms of use of the verb include, for example,' including, '' including, '' including, '' including, Steps, operations, and / or elements do not preclude the presence or addition of one or more other compositions, components, components, steps, operations, and / or components. The term 'and / or' as used herein refers to each of the listed configurations or various combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings attached hereto.

2 is a perspective view schematically showing an example of a ship 1000 provided with a liquefied gas storage tank 1200 according to an embodiment of the present invention. Referring to FIG. 2, the ship 1000 includes a hull 1100 and a liquefied gas storage tank 1200.

According to one embodiment, the liquefied gas storage tank 1200 is installed on the deck of the hull 1100. Alternatively, the liquefied gas storage tank 1200 may optionally be installed in the hull 1100 as required.

3 is a longitudinal sectional view of the liquefied gas storage tank 1200 of FIG. 4 is a cross-sectional view of the liquefied gas storage tank 1200 of FIG. 3 viewed in a direction perpendicular to the longitudinal direction. Referring to FIGS. 3 and 4, liquefied gas is stored in the liquefied gas storage tank 1200. For example, the liquefied gas may be a liquefied natural gas (LNG), a liquefied propane gas (LPG), a compressed natural gas (CNG), or a dimethyl ether (DME) . However, the present invention is not limited to the above contents. According to one embodiment, the liquefied gas storage tank 1200 includes an inner vessel 1210, an outer vessel 1220, and a support module 1230, according to one embodiment.

The liquefied gas is stored inside the inner vessel 1210. An inner container 1210 is provided inside the outer container 1220. The inner container 1210 and the outer container 1220 are provided in a closed curved shape in which a space is formed. According to one embodiment, the inner vessel 1210 and the outer vessel 1220 may be provided with an approximately hollow space therein and may be provided in a closed cylindrical shape. In this case, both end surfaces of the inner container 1210 and the outer container 1220 may be provided in an outwardly convex shape to disperse the inner pressure. The space 1201 between the inner vessel 1210 and the outer vessel 1220 may be provided in a vacuum state to block heat transfer due to conduction and convection from the outside.

The support module 1230 supports the inner container within the outer container 1220. According to one embodiment, the support module 1230 includes a contact member 300 and a first support unit 310.

According to one embodiment, the first support unit 310 supports the inner vessel 1210 between the inner vessel 1210 and the outer vessel 1220. A plurality of first support units 310 are provided. For example, portions of the first support units 310 are arranged in a plurality of rows along the circumferential direction of the inner container 1210 with respect to one another. A contact member 300 is positioned between the first support unit 310 and the inner container 1210. The first support unit 310 includes an elastic member 311.

In this specification, the inner container 1210 or the outer container 1220 provided in a curved shape in the circumferential direction has a virtual plane perpendicular to the direction in which both ends of the outer container 1220 are provided, (1220), it means a direction along a closed curve formed by overlapping each other. For example, when the inner container 1210 and the outer container 1220 are provided in a cylindrical shape, the circumferential direction means a direction wrapping the side surface perpendicular to the longitudinal direction of the inner container 1210 and the outer container 1220.

In this specification, the inner direction refers to the direction in which the outer surface of the inner container 1210 is viewed from the inner surface of the outer container 1220, and the outer direction refers to the direction toward the outer surface of the outer container 1220, And the direction in which the inner surface of the inner surface is viewed.

5 is a perspective view showing the contact member 300 of FIG. 3 and 5, a contact member 300 is provided between the inner container 1210 and the outer container 1220. [ The contact member 300 is provided on one side 301 with an outwardly convex curved surface and the opposite side 302 of one side 301 is provided in a plane. According to one embodiment, the contact member 300 is provided in a semicircular shape in cross section cut in a direction perpendicular to the longitudinal direction. The contact member 300 can be provided with the same shape and width of the cross section cut in the direction perpendicular to the longitudinal direction along the longitudinal direction. Alternatively, the contact member 300 may be provided with an outwardly convex curved surface on one side 301, if desired, and the opposite side 302 may be provided with various shapes and sizes provided on a flat surface. According to one embodiment, the contact member 300 is provided between the inner container 1210 and the elastic member 311. The contact member 300 is fixed to the elastic member 311. The contact member 300 is provided with an insulating material. For example, the contact member 300 may be made of a material such as G-10 or compressed wood. Accordingly, the contact member 300 minimizes the heat transferred from the outside through the outer container 1220 to the inner container 1210 through the elastic member 311. [ According to one embodiment, the contact member 300 is provided at a position opposed to the interspace 311c of the elastic member 311. [

6 is a perspective view showing the elastic member 311 of FIG. 3, 4 and 6, the elastic member 311 is provided with an elastic material having a higher elasticity than the inner container 1210 and the outer container 1220. For example, the elastic member 311 may be provided as spring steel. The elastic member 311 is fixed to the outer container 1220. One end 311a and the other end 311b of the elastic member 311 are fixed to the outer container 1220 in contact with each other and a region 311c between the one end 311a and the other end 311b is fixed to the inner container 311. [ And is provided in a curved shape so as to protrude in a direction toward the base 1210. For example, the elastic member 311 is provided in a plate shape having a plurality of curved surfaces. The elastic member 311 includes a first contact portion 311a, a second contact portion 311b, a contact member contact portion 311c, a first connection portion 311d, a second connection portion 311e, a first curved surface portion 311f, Two curved portions 311g, a third curved portion 311h, and a fourth curved portion 311i.

The first contact portion 311a and the second contact portion 311b are in direct contact with the inner surface of the outer container 1220. [ The elastic member 311 can be fixedly coupled to the outer container 1220 by fixing the first contact portion 311a and the second contact portion 311b to the inner surface of the outer container 1220 by welding.

The contact member contact portion 311c is provided between the first contact portion 311a and the second contact portion 311b. The contact member contact portion 311c contacts the contact member 300. [ The contact member contacting portion 311c may be formed with a single or a plurality of holes through which bolts (313a in Fig. 7) pass.

The first connection portion 311d is provided between the first contact portion 311a and the contact member contact portion 311c. The first connection portion 311d may be provided in a flat plate shape.

The second connection portion 311e is provided between the second contact portion 311b and the contact member contact portion 311c. The second connection portion 311e is provided in the shape of a flat plate.

The first curved surface portion 311f is provided between the first contact portion 311a and the first connection portion 311d. The first curved surface portion 311f has a convex curved plate shape in the outer direction of the outer container 1220.

The second curved surface portion 311g is provided between the second contact portion 311b and the second connection portion 311e. The second curved surface portion 311g has a convex curved plate shape in the outer direction of the outer container 1220.

The third curved surface portion 311h is provided between the first connection portion 311d and the contact member contact portion 311c. The third curved surface portion 311h has a curved plate shape convex inward.

The fourth curved surface portion 311i is provided between the second connection portion 311e and the contact member contact portion 311c. The fourth curved surface portion 311i has a curved plate shape convex in the inward direction.

In this case, one end of the elastic member 311 corresponds to one of the first contact portion 311a and the second contact portion 311b, and the other end of the elastic member 311 corresponds to the other end. Also, the interspace 311c of the elastic member 311 corresponds to the contact member contact portion 311c.

According to one embodiment, the elastic member 311 is provided so that one end 311a and the other end 311b are arranged along the circumferential direction of the inner container 1210 with respect to each other. Alternatively, the elastic members 311 may be arranged in various directions as required.

Between the inner container 1210 and the elastic member 311, a contact member 300 is provided in a single or a plurality. The contact member 300 provided between the inner container 1210 and the elastic member 311 is configured such that one side 301 is in contact with the inner container 1210 and the opposite side 302 is in contact with the elastic member 311 . According to one embodiment, the contact member 300 is provided at a position opposed to the interspace 311c of the elastic member 311. [ The contact member 300 is disposed such that the longitudinal direction thereof is parallel to a direction perpendicular to the circumferential direction of the inner container 1210. That is, when one end 311a and the other end 311b of the elastic member 311 are provided so as to be arranged along the circumferential direction of the inner container 1210, the contact member 300 is arranged in the longitudinal direction of the elastic member 311 And is disposed in a direction perpendicular to the direction in which the one end 311a and the other end 311b are arranged. Alternatively, the contact member 300 may be disposed in various positions and orientations as required.

As described above, by providing the elastic member 311, it is possible to minimize the influence of relative movement due to heat shrinkage and difference in degree of expansion between the inner container 1210 and the outer container 1220.

Fig. 7 is an exploded view showing the contact member 300 and the first supporting unit 310 of Fig. 8 is a cross-sectional view of the contact member 300 of FIG. 6 viewed in the AA direction. 7 and 8, the contact member 300 can be coupled to the elastic member 311 by the fastening member 304. [ According to one embodiment, fastening member 304 includes bolts 304a and nuts 304b. The bolt 304a passes through the contact member 300 and the elastic member 311 in order and is engaged with the nut 304b. Alternatively, the bolt 304a may be coupled with the nut 304b through the elastic member 311 and the contact member 300 sequentially. The contact member 300 is formed with a bolt hole 303 through which the bolt 304a passes.

The fastening member 304 is provided so as to be spaced apart from the inner container 1210 when the fastening member 304 is coupled to the contact member 300 and the elastic member 311. For example, the bolt hole 303 is formed through one surface 301 and the opposite surface 302 of the contact member 300. The bolt holes 303 include a first area 303a and a second area 303b having different diameters from each other. The first area 303a is provided adjacent to the first area 301 than the second area 303b. The first region 303a has a diameter larger than the diameter of the second region 303b. For example, the diameter of the first region 303a is greater than the diameter of the head or nut 304b of the bolt 304a, the diameter of the second region 303b is larger than the diameter of the threaded portion of the bolt 304a And is provided smaller than the head of the bolt 304a. Therefore, when the fastening member 304 is fastened through the bolt hole 303 having the above-described shape, the bolt 304a or the nut 304b, which is generally made of a material having a higher thermal conductivity than the contact member 300, It is possible to prevent the heat from being transferred by being brought into contact with the container 1210. Alternatively, the contact member 300 may be coupled to the elastic member 311 by various fastening means.

9 to 12 are longitudinal sectional views of a liquefied gas storage tank according to another embodiment of the present invention. 9-12, unlike the liquefied gas storage tank 1200 of FIG. 3, the liquefied gas storage tanks 1200a, 1200b, 1200c, 1200d may include second support units 320, 320a, 320b, . The second support units 320, 320a, 320b, and 320c have different configurations from the first support unit 310 described above. The first support unit 310 supports the upper portion of the inner container 1210. The second support units 320, 320a, 320b, and 320c support the lower portion of the inner container 1210. [ The second support units 320, 320a, 320b, and 320c include bases 321, 321a, and 321b.

The bases 321, 321a, and 321b extend from the inner surface of the outer container 1220 toward the inner container 1210. The bases 321, 321a, and 321b are fixed to the outer container 1220.

Between the inner container 1210 and the bases 321, 321a, and 321b, contact members 300a, 300b, 300c, and 300d are provided singly or in plurality.

Referring to FIG. 9, according to one embodiment, the second support unit 320 further includes a support shaft 322. The support shaft 322 extends downward from the outer surface of the inner container 1210. The support shaft 322 is fixed to the inner vessel 1210. The upper surface of the base 321 and the lower surface of the support shaft 322 are provided to face each other. Between the base 321 and the support shaft 322, a contact member 300a is provided in a single or a plurality of contact members. The configuration and structure of the other liquefied gas storage tank 1200a is substantially the same as that of the liquefied gas storage tank 1200 of Fig.

Fig. 13 is a view of the contact member and the second supporting unit of Fig. 10 viewed in the BB direction. Fig. 10 and 13, unlike the liquefied gas storage tank 1200a of FIG. 9, the second support unit 320a of the liquefied gas storage tank 1200b is configured such that the contact member 300b contacts the inner vessel 1210 And is provided to be in direct contact. For example, the contact member 300b provided between the inner container 1210 and the base 321a is such that one surface 301 is in contact with the inner container and the opposite surface 302 is in contact with the upper surface of the base 321a Respectively. According to one embodiment, the contact member 300b is provided along the circumferential direction of the inner container 1210 in the longitudinal direction. The contact member 300b is provided so that one surface 301 is bent to contact the outer surface of the inner container 1210 along the circumference of the inner container 1210. [ The configuration and structure of the other liquefied gas storage tank 1200b are substantially the same as those of the liquefied gas storage tank 1200a of Fig.

11, the liquefied gas storage tank 1200c is different from the liquefied gas storage tank 1200b of FIG. 10 in that the contact member 300c is disposed along the direction perpendicular to the circumferential direction of the inner container 1210 . A plurality of contact members 300c are arranged along the circumferential direction of the inner container 1210. [ The configuration and structure of the other liquefied gas storage tank 1200c are substantially the same as those of the liquefied gas storage tank 1200b of Fig.

FIG. 14 is a view of the contact members 300d, 300e, 300f, and 300g and the second support unit 320c of FIG. 12 in the CC direction. 12 and 14, unlike the liquefied gas storage tanks 1200a, 1200b, and 1200c of Figs. 9 to 11, the second support unit 320c of the liquefied gas storage tank 1200d includes a first projection member 323, a second projecting member 324, and a third projecting member 325.

The first protruding member 323 and the second protruding member 324 protrude from the inner surface of the outer container 1220 toward the inner container 1210. [ The first projecting member 323 and the second projecting member 324 are disposed apart from each other along a direction perpendicular to the circumferential direction of the outer container 1220. [ The first projecting member 323 and the second projecting member 324 are fixedly provided to the outer container 1220.

The third projecting member 325 is projected from the outer surface of the inner container 1210 to be inserted between the first projecting member 323 and the second projecting member 324. [ The third projection member 325 is provided to be fixed to the inner container 1210. The third projection member 325 is provided to be spaced apart from the outer container 1220. Therefore, the heat transferred from the outside to the outer container 1220 is prevented from being transmitted to the inner container 1210 through the third protruding member 325.

The distance between the first protruding member 323 and the inner container 1210 and between the second protruding member 324 and the inner container 1210 and between the first protruding member 323 and the third protruding member 325 Contact members 300d, 300e, 300f, and 300g are provided between the second projecting member 324 and the third projecting member 325, respectively.

The first protruding member 323 and the second protruding member 324 and the third protruding member 325 are arranged along the direction perpendicular to the circumferential direction of the inner container 1210 and the outer container 1220, The second support unit 320c limits relative movement between the inner container 1210 and the outer container 1220 in a direction perpendicular to the circumferential direction of the inner container 1210 and the outer container 1220 . Accordingly, when the second support unit 320c is provided at one position of the liquefied gas storage tank, the second support unit 320c is a reference for relative movement between the inner vessel 1210 and the outer vessel 1220, It is possible to prevent the relative position between the outer container 1220 and the inner container 1210 from being changed over a certain range at the time of expansion and contraction.

The configuration and structure of the other liquefied gas storage tank 1200d are substantially the same as those of the liquefied gas storage tank 1200a of Fig.

The liquefied gas storage tank of the present invention may be provided in various embodiments in which a contact member may be provided between the inner vessel 1210 and the outer vessel 1220. [

As described above, the space 1201 between the outer container 1220 and the inner container 1210 is provided in a vacuum, and the one surface 301 is provided with a curved surface so as to be in line contact with other structures, It is possible to increase the heat insulating efficiency between the inside and the outside of the liquefied gas storage tank.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art will appreciate that various modifications may be made to the embodiments described above. The scope of the present invention is defined only by the interpretation of the appended claims.

300: contact member 301: one surface
302: reverse surface 310: first support unit
311: elastic member 320, 320a, 320b, 320c:
1000: Ship 1100: Hull
1200, 1200a, 1200b, 1200c, 1200d: liquefied gas storage tank
1210: inner container 1220: outer container
1230, 1230a, 1230b, 1230c, 1230d:

Claims (21)

An inner vessel in which liquefied gas is stored;
An outer container in which the inner container is provided;
And a support module provided between the inner container and the outer container, the support module having a contact member provided on one surface thereof in an outwardly convex curved surface and the opposite surface of the one surface being provided in a flat bar shape,
Wherein the supporting module further comprises a first supporting unit provided between the inner container and the outer container and supporting the inner container,
The contact member is positioned between the first support unit and the inner container,
Wherein the first support unit comprises an elastic member provided in a material having a higher elasticity than the inner container and the outer container and fixed to the outer container,
A plurality of contact members are provided between the inner container and the elastic member,
Wherein the contact member provided between the inner container and the elastic member is in contact with the inner container and the opposite surface is in contact with the elastic member, Combined liquefied gas storage tanks. The method according to claim 1,
Wherein the contact member is provided in a semicircular shape in cross section cut in a direction perpendicular to the longitudinal direction. 3. The method of claim 2,
Wherein the contact member is equally provided with a cross-sectional shape cut in a direction perpendicular to the longitudinal direction along the longitudinal direction. delete delete delete The method according to claim 1,
Wherein the fastening member is provided so as to be spaced apart from the inner container. 8. The method of claim 7,
Wherein the contact member has a bolt hole penetrating the one surface and the opposite surface and into which the bolt is inserted;
Wherein the bolt holes include a first region and a second region having diameters different from each other,
Wherein the first region is provided adjacent to the one side than the second region and is provided with a diameter larger than the diameter of the second region. The method according to claim 1,
Wherein one end and the other end of the elastic member are fixed in contact with the outer container and are provided in a bent shape such that an area between the one end and the other end protrudes in a direction toward the inner container, A liquefied gas storage tank provided to be arranged along a circumferential direction of a vessel. 10. The method of claim 9,
Wherein the contact member is provided at a position opposed to the intermediate region of the elastic member and is disposed so that its longitudinal direction is parallel to a direction perpendicular to the circumferential direction of the inner container. The method according to claim 1,
The elastic member
Wherein the elastic member is provided in a plate shape having a plurality of curved surfaces,
A first contact portion and a second contact portion contacting the inner surface of the outer container;
A contact member contact portion provided between the first contact portion and the second contact portion and contacting the contact member;
A first connection portion provided between the first contact portion and the contact member contact portion and provided in a flat plate shape;
A second connection portion provided between the second contact portion and the contact member contact portion and provided in a flat plate shape;
A first curved portion provided between the first contact portion and the first connection portion and having a convex curved plate shape in an outward direction of the outer container;
A second curved surface portion provided between the second contact portion and the second connection portion and having a convex curved plate shape in an outward direction of the outer container;
A third curved portion provided between the first connection portion and the contact member contact portion and having an inwardly convex curved plate shape;
And a fourth curved portion provided between the second connection portion and the contact member contact portion and having an inwardly convex curved plate shape. The method according to claim 1,
Wherein the first support units are provided in a plurality and arranged along the circumferential direction of the inner container with respect to each other. 10. The method of claim 9,
The supporting module further comprises a second supporting unit having a configuration different from that of the first supporting unit,
The first support unit supports an upper portion of the inner container,
And the second support unit supports the lower portion of the inner vessel. 14. The method of claim 13,
Wherein the second support unit includes a base extending in a direction from an inner surface of the outer container toward the inner container,
Wherein the contact member is provided in a single or a plurality of spaces between the inner container and the base. An inner vessel in which liquefied gas is stored;
An outer container in which the inner container is provided;
And a support module provided between the inner container and the outer container, the support module having a contact member provided on one surface thereof in an outwardly convex curved surface and the opposite surface of the one surface being provided in a flat bar shape,
Wherein the supporting module further comprises a first supporting unit provided between the inner container and the outer container and supporting the inner container,
The contact member is positioned between the first support unit and the inner container,
Wherein the first support unit comprises an elastic member provided in a material having a higher elasticity than the inner container and the outer container and fixed to the outer container,
A plurality of contact members are provided between the inner container and the elastic member,
The supporting module further comprises a second supporting unit having a configuration different from that of the first supporting unit,
The first support unit supports an upper portion of the inner container,
The second support unit supports the lower portion of the inner container,
Wherein the second support unit includes a base extending in a direction from an inner surface of the outer container toward the inner container,
A plurality of contact members are provided between the inner container and the base,
Wherein the contact member provided between the inner container and the base is disposed so that the one surface is in contact with the inner container and the opposite surface is in contact with the base. 16. The method of claim 15,
Wherein the contact member provided between the inner container and the base is provided so that the one surface is bent to contact the outer surface of the inner container along the periphery of the inner container. 16. The method of claim 15,
Wherein the contact member provided between the inner container and the base is disposed along a direction perpendicular to the circumferential direction of the inner container in the longitudinal direction. 18. The method of claim 17,
Wherein a plurality of the contact members provided between the inner container and the base are arranged along the circumferential direction of the inner container. An inner vessel in which liquefied gas is stored;
An outer container in which the inner container is provided;
And a support module provided between the inner container and the outer container, the support module having a contact member provided on one surface thereof in an outwardly convex curved surface and the opposite surface of the one surface being provided in a flat bar shape,
Wherein the supporting module further comprises a first supporting unit provided between the inner container and the outer container and supporting the inner container,
The contact member is positioned between the first support unit and the inner container,
Wherein the first support unit comprises an elastic member provided in a material having a higher elasticity than the inner container and the outer container and fixed to the outer container,
A plurality of contact members are provided between the inner container and the elastic member,
The supporting module further comprises a second supporting unit having a configuration different from that of the first supporting unit,
The first support unit supports an upper portion of the inner container,
The second support unit supports the lower portion of the inner container,
Wherein the second support unit comprises:
A first protruding member and a second protruding member protruding in a direction toward the inner container from the inner side surface of the outer container and spaced apart from each other along a direction perpendicular to the circumferential direction of the outer container;
And a third protruding member protruding from an outer surface of the inner container to be inserted between the first protruding member and the second protruding member,
Wherein the first protruding member and the second protruding member are disposed between the first protruding member and the inner container, between the second protruding member and the inner container, between the first protruding member and the third protruding member, Wherein the contact member is provided between the members. 20. The method of claim 19,
And the third projecting member is provided to be spaced apart from the outer container. The method according to any one of claims 1 to 3 and 7 to 20,
Wherein a space between the inner vessel and the outer vessel is provided in a vacuum state.

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