KR20110046627A - Insulation panel attachment structure of an independence type liquified gas tank and attachment method thereof - Google Patents

Abstract

PURPOSE: An insulation panel coupling structure and method for a stand-alone type liquefied gas tank are provided to reduce the number of parts for installation of insulation panels by increasing the size of an insulation panel attached to the exterior of a tank. CONSTITUTION: An insulation panel coupling structure for a stand-alone type liquefied gas tank comprises a stud bolt(3), a first insulation panel(11), a fixing member(5), and a second insulation panel(15). The stud bolt is installed on the exterior of a tank body(1). The first insulation panel is inserted to the stud bolt. The fixing member is coupled to the stud bolt in order to secure the first insulation panel in the position. The second insulation panel is coupled to the fixing member and laminated on the first insulation panel. At least one of the first and second insulation panels has a protection layer laminated on an insulating material.

Description

INSULATION PANEL ATTACHMENT STRUCTURE OF AN INDEPENDENCE TYPE LIQUIFIED GAS TANK AND ATTACHMENT METHOD THEREOF}

The present invention relates to a heat insulating panel coupling structure and a coupling method of a standalone liquefied gas tank installed for storing liquefied gas, such as LNG or LPG.

Natural gas is transported in a gaseous state through onshore or offshore gas piping, or transported to a distant consumer while being stored in an LNG carrier in the form of liquefied liquefied natural gas (LNG) or liquefied petroleum gas (LPG). Liquefied natural gas is obtained by cooling natural gas to cryogenic temperature (approximately -163 ℃), and its volume is reduced to about 1/600 than natural gas in gas state, so it is very suitable for long distance transportation through sea.

LNG transporter for loading and unloading LNG to land requirements by operating the sea with LNG The vessel includes a storage tank (commonly referred to as a "cargo hold") capable of withstanding cryogenic temperatures of liquefied natural gas.

These storage tanks can be classified into independent type and membrane type depending on whether the load directly affects the insulation material.Membrane type storage tanks are usually GT NO 96 type and TGZ Mark III type. Independent storage tanks are divided into MOSS type and SPB type. The structure of the MOSS type independent storage tank is described in Korean Patent No. 10-15063 and the like, and the structure of the SPB type independent storage tank is described in Korean Patent No. 10-305513 and the like.

In general, stand-alone storage tanks are made by attaching a relatively rigid insulation panel such as polyurethane to a tank body made of aluminum alloy, SUS, and 9% nickel, such as low temperature resistant alloy, and arranged on the inner bottom of the hull. Is placed on the support.

The insulation structure of a liquefied gas storage tank for installing a plurality of insulation panels made of polyurethane foam on the outside of the tank body is described in Korean Patent No. 10-166608.

According to the heat insulation structure of the independent liquefied gas tank according to the prior art, a heat insulating panel having a substantially hexahedron shape is successively attached to the outside of the tank body to prevent heat from being transferred to the liquefied gas contained in the tank. Insulating panels are manufactured to have a predetermined calculated thickness to block heat transfer.

In addition, a heat insulating material having elasticity even at low temperatures between the heat insulating panels arranged on the outside of the tank body so as to properly act according to the shrinkage of the tank body due to receiving the cryogenic liquefied gas to prevent the occurrence of stress in the heat insulating panel. Is installed.

According to the prior art, in order to attach one insulation panel to the outside of the tank body, first attaching a mounting member such as a stud to the outside of the tank body by welding, and then joining the cylindrical member and the supporting member to the mounting member, Subsequently, the insulation panel was fitted to the support member to perform the work of fastening with the washer and the nut. Here, the support member is a rod-shaped rod with threads formed at both ends, and the cylindrical member is a part interposed between the mounting member and the heat insulation panel to protect the heat insulation panel.

In general, when arranging a large thermal insulation panel in the tank body than the case of arranging a small thermal insulation panel in the tank body, less mounting members such as studs can be installed, so from the outside to the tank body through the mounting member It is easy to block the heat transferred. Furthermore, it is preferable to reduce the number of parts for attaching the insulation panel and to shorten the working time.

However, in the heat insulation structure of the liquefied gas storage tank according to the prior art, since the heat insulation panel must have a predetermined thickness as described above, the size of one heat insulation panel in consideration of the workability when installing the heat insulation panel and the like. There is a limit that cannot be increased more than.

Therefore, it is possible to attach a larger insulation panel to the tank body, at the same time can further reduce the time and effort required for the attachment work, and to reduce the heat transfer from the outside of the storage tank as much as possible, the liquefied gas storage tank There is a continuing need for research on the thermal insulation of ethanol.

In addition, research on securing the ventilation space between the tank body and the insulation panel, securing the support structure of the stable insulation panel, securing the airtightness to prevent liquefied gas leakage through the gap between the adjacent insulation panels also need to be made continuously.

The present invention for solving the above problems, by forming a heat insulating panel in a double structure to increase the size of a single heat insulating panel attached to the outside of the tank body to reduce the parts required for installation and the time required for installation and It is to provide an insulation panel coupling structure and coupling method of a standalone liquefied gas tank that can reduce the effort, and to reduce as much as possible the heat transfer from the outside of the storage tank.

According to the present invention for achieving the above object, a plurality of heat insulation panels are arranged in a row outside the tank body of the liquefied gas storage tank as a heat insulation panel coupling structure of the liquefied gas storage tank insulated, it is installed outside the tank body Stud bolts; A primary insulating panel fitted to the stud bolt; A fixing member coupled to the stud bolt for holding the primary insulation panel fixedly; A secondary insulation panel coupled to the fixing member and laminated on the primary insulation panel; Provided is a heat insulating panel coupling structure of the independent liquefied gas tank comprising a.

At least one of the primary insulation panel and the secondary insulation panel preferably includes a protective layer laminated on the insulation.

The primary insulation panel has a first hole in which the stud bolt is inserted and a stepped portion is formed on an inner circumferential surface thereof, and the first hole is close to the tank body and has a small inner diameter close to the tank body based on the stepped portion, and is far from the tank body. An inner diameter includes a large diameter portion, and the small diameter portion preferably has a dimension equal to or larger than the outer diameter of the fixing member.

The fixing member may include a fastening portion screwed to the stud bolt, an extension portion extending from the fastening portion, and coupled to the secondary heat insulating panel, and in a radial direction to fix the primary heat insulating panel. It is preferable to include the flange part which protrudes and is caught by the said step part.

A filling member of a heat insulating material is sandwiched between the fixing member and the large diameter portion, and when the filling member is fitted to the fixing member, the filling member has a size forming a horizontal plane with the surface of the primary insulating panel.

The secondary heat insulation panel has a second hole into which the end of the fixing member is inserted, one side of the second hole is open and the other side is provided with a coupling plate to which the fixing member is coupled, and the secondary heat insulation panel is Preferably, the filling member is fitted into the second hole after being joined to the primary insulation panel.

In addition, according to another aspect of the present invention, a plurality of insulating panels are installed in succession to the outside of the tank body of the liquefied gas storage tank insulated panel bonding method of the liquefied gas storage tank insulated, stud bolt on the outside of the tank body Installing it; Inserting a primary insulation panel into the stud bolt; Stacking the primary insulation panel on the tank body by coupling the fixing member to the stud bolt in the state where the primary insulation panel is inserted; Bonding a secondary insulation panel to the fixing member to laminate a secondary insulation panel on the primary insulation panel; Provided is a method for coupling a thermal insulation panel of a standalone liquefied gas tank comprising a.

The primary heat insulation panel has a first hole through which the fixing member is inserted, and at the same time, the secondary heat insulation panel has a second hole through which the fixing member is inserted, and after laminating the primary insulation panel on the tank body. The method may further include filling a first filling member in the first hole, and after laminating the second insulation panel on the primary insulation panel, filling the second hole in the second hole. It is preferable to further include.

According to the present invention as described above, the insulation panel coupling structure and the coupling method of the independent liquefied gas tank having a double structure of the insulation panel attached to the outside of the tank body can be provided.

Accordingly, according to the present invention, by increasing the size of one insulation panel attached to the outside of the tank body, it is possible to reduce the components required for installation and to reduce the time and effort required for the installation work, from the outside of the storage tank It is possible to reduce heat transfer as much as possible.

Hereinafter, a heat insulating panel coupling structure of a standalone liquefied gas tank according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

1 is a cross-sectional view showing the disassembled parts to explain the insulation panel coupling structure according to a preferred embodiment of the present invention, Figure 2 is shown in accordance with a preferred embodiment of the present invention coupled to the outside of the tank body A cross-sectional view of the insulation panel coupling structure is shown.

As shown in Fig. 1 and 2, the heat insulating structure of the independent liquefied gas tank is formed by forming a heat insulating layer by attaching a relatively hard heat insulating panel 10, such as polyurethane foam to the outside of the tank body (1). That is, the heat insulation panel 10 may have a substantially hexahedral shape, and the heat insulation layer is formed by successively installing the plurality of heat insulation panels 10 on the tank body 1 of the storage tank.

The tank body 1 and the heat insulation panel 10 are not completely contacted with each other and spaced apart from each other so that a gap is formed by a pad. The gap between the tank body 1 and the thermal insulation panel 10 can be utilized as a ventilation space and can also be used as a passage of the leaking liquid when a leak occurs due to damage of the tank body 1.

According to the insulation panel coupling structure according to the preferred embodiment of the present invention, the stud bolts 3 are provided on the outer surface of the tank body 1 at regular intervals. The stud bolt 3 can be fixedly mounted on the outside of the tank body 1 by welding.

A pad (not shown) having a plate shape of a constant thickness may be arranged in close contact with the stud bolt 3 around the stud bolt 3. The pad is installed around the stud bolts 3 so that the size of the gap between the tank body 1 and the insulation panel 10 can be kept constant. The male thread is formed at the end of the stud bolt 3.

The primary heat insulation panel 11 is fitted to the stud bolt 3. To this end, a substantially circular first hole 12 may be formed in the primary insulation panel 11. A stepped portion 12a is formed on the inner circumferential surface of the first hole 12, and the inner diameter of the first hole 12 is far from the inner diameter of the side closer to the tank body 1 with respect to the stepped portion 12a. It is formed smaller than the inner diameter of the side. When the small diameter part is called the small diameter part 12b and the large diameter part is called the large diameter part 12c, it is preferable that the diameter of the small diameter part 12b has a dimension larger than the outer diameter of the stud bolt 3, It is more preferable to have the same dimension as the outer diameter of the fixing member 5 mentioned later.

The primary insulation panel 11 is preferably made of a material having excellent heat insulation performance while having a certain strength, such as polyurethane foam or reinforced polyurethane foam. The primary heat insulation panel 11 may include a first protective layer 13 laminated and attached to one side of a heat insulating material such as the polyurethane foam described above. The first protective layer 13 may be made of a low temperature steel material such as aluminum, an aluminum alloy, or SUS.

In order to couple the primary insulation panel 11 to the stud bolt 3, the fixing member 5 is fastened to the stud bolt 3. The fastening member 5a is screwed to the stud bolt 3 with the outer diameter of the same dimension as the inner diameter of the small diameter part 12b of the primary heat insulation panel 11, as mentioned above. And an extension part 5b extending from the fastening part 5a for joining the secondary insulation panel 15 as described later, and radially between the fastening part 5a and the extension part 5b. And a protruding flange portion 5c.

The plurality of primary insulation panels 11 may be fixed to the surface of the storage tank by the fixing member 5 to have a complete sealing structure.

The fastening portion 5a has a female thread that can be fastened to the male thread of the stud bolt.

The extension part 5b is attached to the stud bolt 3 with the fixing member 5 via the primary heat insulation panel 11 for attaching the primary heat insulation panel 11 to the outside of the tank body 1. When fastened, the ends of the extension portion 5b are formed to have a length that can protrude from the primary heat insulation panel 11.

The flange part 5c contacts the step part 12a formed in the 1st hole 12 of the primary heat insulation panel 11, and hold | maintains the primary heat insulation panel 11 fixedly.

Outside the extension part 5b, a first filling member 7 made of a heat insulating material such as EPS, for example, can be inserted to fill the empty space between the fixing member 5 and the large diameter part 12c. When the first filling member 7 is fitted to the extension portion 5b, it is preferable that the first filling member 7 may have a horizontal plane with the surface of the primary insulation panel 11 or have a size that protrudes finely.

As shown in the figure, the secondary insulation panel 15 is laminated on the upper surface of the primary insulation panel 11. The secondary insulation panel 15 has a substantially hexahedral shape but preferably has a smaller horizontal and vertical dimension than the primary insulation panel 11 in plan view.

The secondary insulation panel 15 may be fixed to the primary insulation panel 11 by being fitted into and coupled to the extension part 5b of the fixing member 5 described above. To this end, the secondary insulation panel 15 may have a substantially circular second hole 16 formed therein. A joining plate 18 is provided in the second hole 16 at the lower portion of the second hole 16, that is, at one side surface (lower surface in the drawing) of the secondary heat insulating panel 15. It may be formed integrally with). The coupling plate 18 is formed with a through hole 18a through which the extension 5b can pass.

The secondary insulation panel 15 can be fixed to one side of the primary insulation panel 11 by screwing the coupling plate 18 to the end of the extension portion 5b by the washer 8 and the nut 9. Can be.

After the fixing of the secondary insulation panel 15 by the washer 8 and the nut 9 is completed, the second filling member 19 can be fitted in the second hole 16. When the second filling member 19 is fitted into the second hole 16, the second filling member 19 may form a horizontal plane with the surface of the secondary insulation panel 11 or have a size that protrudes finely.

On the other hand, according to the present invention, although not shown in the figure, the shape of the second hole 16 has a stepped portion as in the above-described first hole, and the secondary insulation panel 15 is formed by using the stepped portion instead of the coupling plate. You may deform so that it may be fixed to the vehicle heat insulation panel 11 fixedly.

Like the primary insulation panel 11, the secondary insulation panel 15 is preferably made of a material having excellent heat insulation performance while having a certain strength such as polyurethane foam or reinforced polyurethane foam. The secondary heat insulating panel 15 may include a second protective layer 17 laminated and attached to one side of the heat insulating material such as the polyurethane foam described above. The second protective layer 17 may be made of a low temperature steel material such as aluminum, an aluminum alloy, or SUS.

As described above, according to the present invention, there is provided a heat insulation panel coupling structure of an independent liquefied gas tank in which a heat insulation panel attached to the outside of the tank body is formed in a double structure of a first heat insulation panel and a second heat insulation panel.

Accordingly, according to the present invention, since a single insulation panel attached to the outside of the tank body can be divided into a primary and a secondary insulation panel, respectively, it is possible to work even if the size of the insulation panel is increased, the insulation panel is increased As a result, it is possible to reduce the parts required for installation, to reduce the time and effort required for installation work, and to reduce heat transfer from the outside of the storage tank as much as possible.

In addition, by forming the first and second protective layers in the primary and secondary insulating panels and connecting each of the first protective layer and the respective second protective layer to each other, the connected first and second protective layers are formed of the liquefied gas. It can be configured to serve as a sealing wall that can prevent the leaked liquefied gas from coming into direct contact with the hull upon leakage.

Insulation panel coupling structure and coupling method according to the present invention can be applied to any of the offshore structure used as floating stand-alone liquefied gas tank, as well as floating liquefied gas tank on the sea while the flow occurs, again In other words, LNG FPSO (Floating, Production, Storage and Offloading) or LNG FSRU, including liquefied gas carriers carrying LNG, LPG, etc. It can be applied to both offshore plants such as Floating Storage and Regasification Unit.

As described above, according to the present invention, the insulation panel coupling structure and the coupling method of the independent liquefied gas tank, but with reference to the illustrated drawings, the present invention is not limited by the embodiments and drawings described above, claims Various modifications and variations can be made by those skilled in the art within the scope of the present invention.

1 is an exploded cross-sectional view showing each component to explain the insulation panel coupling structure according to a preferred embodiment of the present invention, and

2 is a cross-sectional view of the insulation panel coupling structure according to a preferred embodiment of the present invention coupled to the outside of the tank body.

Description of the Related Art

1: tank body 3: stud bolt

5 fixing member 5a fastening part

5b: extension part 5c: flange part

7: first filling member 8: washer

9: nut 10: heat insulation panel

11: primary insulation panel 12: first hole

12a: step portion 12b: small diameter portion

12c: large diameter portion 13: the first protective layer

15: secondary insulation panel 16: second hole

17: second protective layer 18: bonding plate

18a: through-hole 19: second filling member

Claims (8)

As a heat insulation panel coupling structure of a liquefied gas storage tank in which a plurality of heat insulation panels are installed in succession outside the tank body of the liquefied gas storage tank, the insulation is performed, A stud bolt installed outside the tank body; A primary insulating panel fitted to the stud bolt; A fixing member coupled to the stud bolt for holding the primary insulation panel fixedly; A secondary insulation panel coupled to the fixing member and laminated on the primary insulation panel; Insulation panel coupling structure of the independent liquefied gas tank comprising a. The method according to claim 1, At least one of the primary insulation panel and the secondary insulation panel is a thermal insulation panel coupling structure of the independent liquefied gas tank, characterized in that it comprises a protective layer laminated on the insulation. The method according to claim 1, The primary insulation panel has a first hole in which the stud bolt is inserted and a stepped portion is formed on an inner circumferential surface thereof, and the first hole is close to the tank body and has a small inner diameter close to the tank body based on the stepped portion, and is far from the tank body. A large diameter portion having a large inner diameter, wherein the small diameter portion has a dimension larger than or equal to the outer diameter of the fixing member, the insulation panel coupling structure of the independent liquefied gas tank. The method of claim 3, The fixing member may include a fastening portion screwed to the stud bolt, an extension portion extending from the fastening portion, and coupled to the secondary heat insulating panel, and in a radial direction to fix the primary heat insulating panel. Insulating panel coupling structure of the independent liquefied gas tank characterized in that it comprises a flange portion projecting to the stepped portion. The method of claim 3, Independent liquefied gas, characterized in that the filling member of the insulating material is sandwiched between the fixing member and the large diameter portion, the filling member has a size forming a horizontal plane with the surface of the primary insulating panel when fitted to the fixing member. Insulation panel bonding structure of tank. The method according to claim 1, The secondary heat insulation panel has a second hole into which the end of the fixing member is inserted, one side of the second hole is open and the other side is provided with a coupling plate to which the fixing member is coupled, and the secondary heat insulation panel is Insulating panel coupling structure of the independent liquefied gas tank, characterized in that the filling member is fitted into the second hole after being coupled to the primary insulating panel. As a method of coupling a thermal insulation panel of a liquefied gas storage tank in which a plurality of thermal insulation panels are installed in succession outside the tank body of the liquefied gas storage tank, the insulation is performed, Installing a stud bolt on the outside of the tank body; Inserting a primary insulation panel into the stud bolt; Stacking the primary insulation panel on the tank body by coupling the fixing member to the stud bolt in the state where the primary insulation panel is inserted; Bonding a secondary insulation panel to the fixing member to laminate a secondary insulation panel on the primary insulation panel; Insulation panel bonding method of a standalone liquefied gas tank comprising a. The method of claim 7, The primary insulation panel has a first hole through which the fixing member is inserted, and the secondary insulation panel has a second hole through which the fixing member is inserted. After the step of laminating the primary insulation panel to the tank body further comprises the step of filling a first filling member in the first hole, and after the step of laminating the secondary insulation panel in the primary insulation panel And a second filling member filling the second hole.

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