KR20180081945A - Heat insulation structure for cryogenic liquid storage tank and installation method thereof - Google Patents

Abstract

The present invention relates to a heat insulation structure of a cryogenic fluid storage tank and a method of installing a heat insulation structure and, more specifically, to: a heat insulation structure of a cryogenic fluid storage tank, in which anchor strips are mounted on the edge parts neighboring each other on insulation boards, an exposure part, on which no anchor strip mounted, is formed on the top surface of a corner part, where the edge parts meet each other, so as to prevent the anchor strips mounted on the edge parts from crossing each other at a right angle, and fixing parts are not formed on the anchor strips such that welding lines are formed linearly and thus automatic welding is easy; and a method of installing the heat insulation structure. The heat insulation structure of a cryogenic fluid storage tank, according to the present invention, comprises: a plurality of insulation boards mounted to be spaced apart from each other on the inner wall of the storage tank; a plurality of unit membranes mounted on the plurality of insulation boards so as to correspond to each other; and the anchor strips mounted on the plurality of insulation boards so as to fix the plurality of unit membranes, wherein the anchor strips include first and second anchor strips mounted on the first and second edge parts neighboring each other on the insulation boards, and the exposure part, on which the first and second anchor strips are not mounted, is formed on the top surface of the corner part, where the first and second first and second edge parts meet each other, so as to prevent the first and second anchor strips from crossing each other at a right angle.

Description

TECHNICAL FIELD [0001] The present invention relates to a cryogenic fluid storage tank and a method of installing the cryogenic fluid storage tank,

The present invention relates to a heat insulating structure and a method for installing a heat insulating structure in a cryogenic fluid storage tank, and more particularly, to an insulating structure for a cryogenic fluid storage tank, in which anchor strips are provided on neighboring edge portions of an upper part of a heat insulating board, An insulating part of the cryogenic fluid storage tank in which welding lines are formed in a straight line and easy to be automatically welded is formed by preventing an anchoring part in which an anchor strip is not provided on the upper surface of the corner where the edge part meets, To a method of installing a heat insulating structure.

In general, the cargo hold of a membrane type liquefied natural gas carrier transports -163 degrees of liquefied natural gas from the sea, so it is exposed to a static / dynamic load including loads due to cryogenic heat load and movement of the ship and hull deformation, High technology is required to transport the gas safely.

The liquefied natural gas storage tank includes a primary barrier, an upper insulation board, a secondary barrier and a lower insulation board, and the like disposed outwardly from the inside of the liquefied natural gas storage tank, and is coupled to the inside of the hull.

Such a liquefied natural gas storage tank is formed by joining a plurality of lower heat insulating boards in a hull, installing a secondary barrier on a plurality of lower heat insulating boards, installing an upper insulating board and a primary barrier on the secondary barrier .

For example, a method of manufacturing a conventional liquefied natural gas storage tank will be described as follows. First, the operator joins the lower insulation board, the main secondary barrier, and the upper insulation board to the inner hull adjacent to each other. And the operator installs an auxiliary secondary barrier and connection board in the space between the upper secondary insulation board and the upper secondary insulation board above the lower insulation board. Install a primary barrier over the top insulation board and the connection board.

In the case of installing the heat insulating structure with this structure, the heat insulating board and the fixing part for fixing the barrier wall are required. In the past, such a fixing part is located in the anchor strip line so that it is not welded in a straight line but welded to a chamfer line It is difficult to perform automatic welding.

Korean Patent Publication No. 10-2013-0005539 (2013.01.16)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an anchor sheet strip which is provided on an edge portion adjacent to an upper portion of an upper portion of a heat insulating board, An anchor strip is not provided on an upper surface of the anchor strip, and a fixing part is not provided on the anchor strip, so that the welding line is formed in a straight line to facilitate automatic welding.

According to an aspect of the present invention, there is provided a heat insulating structure coupled to an inner wall of a storage tank for inspecting a cryogenic fluid storage space, the heat insulating structure comprising: a plurality of heat insulating boards spaced from each other on an inner wall of the storage tank; A plurality of unit membranes installed corresponding to the plurality of the heat insulating boards; And an anchor strip installed on the plurality of heat insulating boards to fix the plurality of unit mem- branes, wherein the anchor strip includes first and second edge portions provided on adjacent first and second edge portions of the heat- The first and second anchor strips are installed on the upper surface of the corner portion so that the first and second anchor strips are not perpendicular to each other at the corners where the first and second edge portions meet, Wherein an exposed portion of the cryogenic fluid storage tank is formed.

The connection of the first and second anchor strips is disconnected by the exposed portion, and a thermal protector is installed on the exposed portion.

The anchor strip may include a third anchor strip connected to one side of the first anchor strip and the other side of the second anchor strip at the corner portion and the third anchor strip is installed to bypass the exposed portion .

And a fixing unit fixing the plurality of heat insulating boards and the plurality of unit membranes to the inner wall of the storage tank, wherein the fixing unit is not installed in the anchor strip.

The unit membrane may include a corrugated portion formed on the upper side of the heat insulating board and formed in a lower direction between the heat insulating boards installed apart from each other.

It is preferable that a receiving groove is formed in the upper part of the heat insulating board, and the unit membrane includes a downwardly formed wrinkle part to be received in the receiving groove.

Wherein the heat insulating board comprises: a first receiving groove located closest to the corner portion at the first edge portion; And a second receiving groove located closest to the corner portion at the second edge portion, wherein the anchor strip includes a fourth anchor strip provided so as to be connected between the first receiving groove and the second receiving groove, And the fourth anchor strip is installed to bypass the exposed portion.

According to another aspect of the present invention, there is provided a method of installing a heat insulating structure coupled to an inner wall of a storage tank to insulate a cryogenic fluid storage space, the method comprising the steps of: A first step of installing a board; A second step of installing first and second lower anchor strips on first and second edge portions adjacent to each other on the upper portion of the lower heat insulating board; A third step of fixing the lower unit membrane to the first and second lower anchor strips so as to overlap the lower unit membrane on the upper part of the lower heat insulating board; A fourth step in which upper insulating boards are installed on the lower unit membrane so as to be spaced apart from each other; A fifth step of installing first and second upper anchor strips on third and fourth adjacent edge portions of the upper heat insulating board, respectively; And fixing the upper unit membrane to the first and second upper anchor strips so that the upper unit membrane is overlapped on the upper heat insulating board. In the second step, And the lower corner portion where the second edge portion meets is formed on the upper surface of the lower corner portion so that the first and second upper anchor strips are not perpendicular to each other, Of the heat insulating structure.

According to the present invention, the anchor strips are provided on the adjacent edge portions of the upper portion of the heat insulating board, and the exposed portions are formed on the upper surface of the corner portion where the edge portions meet so that the anchor strips provided on the edge portions do not cross each other , The anchor strip is not provided with fixing portions, so that the welding lines are formed in a straight line, and automatic welding is facilitated.

1 is a diagram illustrating a thermal insulation structure of a cryogenic fluid storage tank in accordance with one embodiment of the present invention.
FIG. 2 is a sectional view of a portion AA 'of FIG. 1; FIG.
3 is a view illustrating a thermal insulation structure of a cryogenic fluid storage tank according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, an embodiment of a heat insulating structure of a cryogenic fluid storage tank according to the present invention will be described in detail with reference to the drawings, wherein like reference numerals designate like or corresponding components, A duplicate description will be omitted.

According to the present embodiment, the LNG storage tank is a storage tank storing a cryogenic fluid such as LNG, and a primary barrier welded with a plurality of unit membranes sealing the interior of the storage tank is installed.

That is, the storage tank is provided with a heat insulating structure for inserting the inside, and a membrane can be used as the primary wall directly contacting the LNG in the heat insulating structure.

A primary insulation board and a secondary insulation board are installed between the primary barrier and the inner wall of the storage tank, and a secondary barrier is installed between the primary insulation board and the secondary insulation board.

The secondary insulation board is installed in the upper part of the inner wall of the storage tank. In order to install the secondary insulation board on the inner wall, it is first fixed to the inner wall by mastic bonding and fixed once more by mechanical coupling by stud bolt and nut do.

The heat insulating structure of the present invention is particularly concerned with the construction and installation method of the secondary insulation board and the secondary barrier among the above components, but it will be explained without distinguishing the primary or secondary for the sake of convenience.

1 is a view showing a heat insulating structure of a cryogenic fluid storage tank according to an embodiment of the present invention, FIG. 2 is a sectional view of a portion AA 'of FIG. 1, and FIG. 3 is a cross- Lt; RTI ID = 0.0 > a < / RTI > cryogenic fluid storage tank according to FIG.

As shown in FIGS. 1 to 3, the heat insulating structure coupled to the inner wall of the storage tank for inspecting the cryogenic fluid storage space according to the present invention includes a plurality of heat insulating boards 110 disposed on the inner wall of the storage tank, And a plurality of anchor strips installed on the plurality of heat insulating boards 110 to fix a plurality of unit membranes 130. The plurality of unitary membranes 130 may be disposed on the upper surface of the heat insulating board 110, can do.

The anchor strip includes first and second anchor strips 121 and 122 provided on first and second adjacent edge portions of the upper portion of the heat insulating board 110. The corner portions where the first and second edge portions meet are respectively formed with first And the second anchor strips 121 and 122 may not be orthogonal to each other, an exposed portion may be formed on the upper surface of the corner portion where the anchor strip is not provided.

1, in an embodiment of the present invention, the connection of the first and second anchor strips 121 and 122 is disconnected by the exposed portion, and a thermal protection member 125 is formed on the exposed portion Can be installed.

In another embodiment of the present invention, as shown in FIG. 3, the anchor strip may include a third anchor strip 121 installed at a corner of the first anchor strip 121 and the second anchor strip 122, (123), and the third anchor strip (123) may be installed to bypass the exposed portion. The third anchor strip 123 may connect the first anchor strip 121 and the second anchor strip 122 in a chamfered shape.

A plurality of heat insulating boards 110 and a plurality of unit mem- branes 130 may be installed on the inner wall of the storage tank. Conventionally, there is a problem that it is difficult to perform the automatic welding in a straight line because the fixing part is installed in the anchor strip line. However, in the present invention, the fixing part 140 is installed at a position other than the anchor strip line.

The fixing portions 140 may be installed in two lines on one heat insulating board 110. If the fixing unit 110 is installed on only one line on the primary heat-insulating board, there is a fear that the primary heat-insulating board may rotate according to the load, and the fixing force between the heat-insulating boards may be lowered. .

The unit membrane 130 may include a corrugated portion 135 formed on a lower portion of the gap between the gaps 111 of the heat insulating board 110 installed on the heat insulating board 110 and spaced apart from each other. And another corrugated portion 135 formed in a downward direction to be received in the receiving groove formed on the upper surface of the heat insulating board.

The receiving groove located closest to the corner portion at the first edge portion of the heat insulating board 110 is referred to as a first receiving groove 115a and the receiving groove located closest to the corner portion at the second edge portion is referred to as a second receiving groove 115a, The fourth anchor strip may be installed to connect the first receiving groove 115a and the second receiving groove 115b and may be installed so as to bypass the exposed portion.

It is preferable that the receiving groove 115 of the heat insulating board 110 is formed at a position where the anchor strip is not installed.

In general, the heat insulating board 110 includes an upper fly layer and a lower fly layer. In the past, since the anchor strip is located at the central portion, bonding and compression bonding are performed so as not to separate and separate between the polyurethane foam and the plywood. However, in the present invention, since the anchor strip is located at the edge, there is a possibility that the anchor strip may be detached and separated even if bonding and pressing are performed.

 Therefore, in the present invention, a side flywheel layer may be provided on the side surface of the heat insulating board 110 so that the upper and lower flywheel layers are not separated from each other.

However, if the rigid urethane foam is well installed in the spacing space, it is more effective in maintaining the insulation. However, since the spacing space varies in the installation of the heat insulation board, it is difficult to install the spacing space.

Therefore, in the present invention, a rigid urethane foam is inserted into the spacing space so as to be adjacent to the side flywheel layer, and a glass wool is inserted adjacent to the rigid urethane foam. The glass wool is bonded to the side face of the heat insulating board . It is possible to minimize the glass wool insulation in the spaced space, thereby maximizing the heat insulation effect and facilitating the installation. The insulation effect of the glass wool insulation is correlated with the density, its density is 22 ~ 40kg / m3, the insulation effect is 0.034W / m ℃, and the rigid urethane foam has about 2 ~ 3 times more insulation effect.

A method of installing the heat insulating structure coupled to the inner wall of the storage tank to insulate the cryogenic fluid storage space will be described as follows.

In general, the heat insulating board includes an upper insulating board and a lower insulating board, and the unit membrane includes an upper unit membrane and a lower unit membrane. However, in the following description, This is explained separately.

A method of installing a heat insulating structure coupled to an inner wall of a storage tank to insulate a cryogenic fluid storage space includes a first step of installing a lower heat insulating board which is installed on an inner wall of a storage tank so as to be spaced from each other, A second step of installing first and second lower anchor strips on first and second adjacent edge portions of the upper portion of the board, respectively; A third step of fixing the lower unit membrane to the first and second lower anchor strips so as to overlap the lower unit membrane on the upper part of the lower heat insulating board; A fourth step in which the upper heat insulating boards are installed apart from each other on the lower unit membrane; A fifth step of installing first and second upper anchor strips on the third and fourth edge portions adjacent to each other on the upper portion of the upper heat insulating board; And fixing the upper unit membrane to the first and second upper anchor strips so as to overlap the upper unit membrane on the upper part of the upper heat insulating board.

In the second step, the first and second upper anchor strips are provided on the first and second edge portions. In the lower corner portion where the first and second edge portions meet, the first and second upper anchor strips are not perpendicular to each other, So that an exposed portion can be formed.

In a first step, a side ply layer is provided on at least one side of the lower insulation board, a rigid urethane foam is installed adjacent to the side ply layer in a spaced-apart space between adjacent lower insulation boards, and adjacent to the rigid urethane foam Glass wool can be installed.

In addition, in the third step, the corrugations of the unit membrane may be installed to be received in the receiving groove of the lower heat-insulating board.

The insulation structure of the cryogenic fluid storage tank applied in the embodiment of the present invention may be installed on a ship or the like, and may be installed on land to store, store or transport LNG.

Here, a ship is a concept that includes both a structure and a ship that are floated at sea where a flow occurs and a storage tank for storing LNG, which is a liquid cargo such as an LNG carrier, is loaded at a cryogenic temperature. For example, (LNG-SRV), as well as offshore structures such as LNG-FPSO (Floating, Production, Storage and Offloading) and LNG-FSRU (Floating Storage and Regulation Unit) .

According to the present invention, there is provided a method of installing a heat insulating structure and a heat insulating structure in a cryogenic fluid storage tank, wherein the anchor strips are installed on neighboring edge portions of the heat insulating board, An anchor strip is not formed on the upper surface of the anchor strip, and a fixing portion is not provided on the anchor strip, so that the welding line is formed straight and the automatic welding is advantageous.

Further, by providing the side flywheel layer on at least one side surface of the heat insulating board, it is possible to prevent the flywheel layer, which is coupled to the upper and lower portions of the heat insulating board, from being separated and separated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is.

110: insulating board 115: receiving groove
120: anchor strip 121: first anchor strip
122: second anchor strip 123: third anchor strip
130: unit membrane 135:

Claims (8)

1. A heat insulating structure for coupling to a cistern interior of a storage tank for inspecting a cryogenic fluid storage space,
A plurality of heat insulating boards installed on the inner wall of the storage tank so as to be spaced apart from each other;
A plurality of unit membranes installed corresponding to the plurality of the heat insulating boards; And
And an anchor strip installed on the plurality of heat insulating boards to fix the plurality of unit membranes,
Wherein the anchor strip includes first and second anchor strips disposed on first and second adjacent edge portions of the heat insulating board,
Wherein an exposed portion where the first and second anchor strips are not provided is formed on an upper surface of the corner portion so that the first and second anchor strips are not perpendicular to each other at a corner portion where the first and second edge portions meet, Insulation structure of storage tank. The method according to claim 1,
Wherein the connection of the first and second anchor strips is disconnected by the exposed portion and a thermal protection is provided on the exposed portion. The method according to claim 1,
The anchor strip may include:
And a third anchor strip installed at the corner to connect one side of the first anchor strip and the other side of the second anchor strip,
And the third anchor strip is installed to bypass the exposed portion. The method according to claim 1,
And a fixing unit fixing the plurality of heat insulating boards and the plurality of unit membranes to the inner wall of the storage tank,
Wherein the anchoring strip is not mounted on the anchoring strip. The method according to claim 1,
Wherein the unit membrane includes a corrugation part formed on an upper part of the heat insulating board and formed in a downward direction between the heat insulating boards installed to be spaced apart from each other. The method according to claim 1,
A receiving groove is formed in the upper part of the heat insulating board,
Wherein the unit membrane includes a downwardly formed wrinkle portion to be received in the receiving groove. The method of claim 6,
Wherein the heat-
A first receiving groove located closest to the corner portion at the first edge portion;
And a second receiving groove located closest to the corner portion at the second edge portion,
The anchor strip may include:
And a fourth anchor strip installed to be connected between the first receiving groove and the second receiving groove,
And the fourth anchor strip is installed to bypass the exposed portion. A method of installing a heat insulating structure to be coupled to an inner wall of a storage tank for inspecting a cryogenic fluid storage space,
A first step of disposing a lower insulation board on the inner wall of the storage tank so as to be spaced apart from each other and having receiving grooves formed thereon;
A second step of installing first and second lower anchor strips on first and second edge portions adjacent to each other on the upper portion of the lower heat insulating board;
A third step of fixing the lower unit membrane to the first and second lower anchor strips so that the lower unit membrane is stacked on the upper part of the lower heat insulating board;
A fourth step in which upper insulating boards are installed on the lower unit membrane so as to be spaced apart from each other;
A fifth step of installing first and second upper anchor strips on third and fourth adjacent edge portions of the upper heat insulating board, respectively; And
And fixing the upper unit membrane to the first and second upper anchor strips so that the upper unit membrane is laminated on the upper heat insulating board,
In the second step,
Wherein the first and second anchor strips are formed on an upper surface of the lower corner portion so that the first and second upper anchor strips are not perpendicular to each other, A method of installing a thermal insulation structure of a cryogenic fluid storage tank.

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