KR20210020427A - Structure of Anchor Strip for LNG Storage Tank - Google Patents

Abstract

Disclosed is a structure for installing an anchor strip of an LNG storage tank. According to the present invention, the structure for installing an anchor strip of an LNG storage tank includes: an insulation panel forming an insulation wall of the LNG storage tank; a membrane installed on an upper portion of the insulation panel; and an anchor strip which is mounted on a groove formed on the upper portion of the insulation panel and to which the membrane is fixed by welding, wherein the anchor strip includes: a lower strip fixed to the bottom of the groove; an upper strip which is arranged on an upper portion of the lower strip and in which the membrane is welded to an upper surface; and a plurality of rolling members arranged between the lower strip and the upper strip to enable rolling motion and supporting the upper strip to be slidable on an upper portion of the lower strip.

Description

Structure of Anchor Strip for LNG Storage Tank {Structure of Anchor Strip for LNG Storage Tank}

The present invention relates to an anchor strip installation structure of an LNG storage tank, and more particularly, by enabling the flexible behavior of the anchor strip installed on the upper part of the insulation panel, excessive stress on the welded portion of the anchor strip is caused by the behavior of the membrane. It relates to an anchor strip installation structure of an LNG storage tank that effectively prevents it from being caused.

Liquefied Natural Gas (LNG) is obtained by cooling natural gas to cryogenic temperatures (approximately -163℃), and its volume is reduced to about 1/600 compared to that of gaseous natural gas. It is very suitable for transport. Natural gas is transported in gaseous form through gas pipelines on land or offshore, or as liquefied liquefied natural gas stored on LNG carriers and transported to remote consumers.

Storage tanks that can withstand the cryogenic temperatures of LNG (commonly referred to as'cargo holds') are installed in structures for transporting or storing LNG, such as LNG carriers for loading and unloading LNG to land-required destinations by operating the sea with LNG.

LNG storage tanks can be classified into Independent Tank Type and Membrane Type, depending on whether the load of cargo directly acts on the insulation material. Usually, the membrane type storage tank is divided into GTT's NO 96 type and MARK Ⅲ type, and the independent tank type storage tank is divided into MOSS type and IHI-SPB type.

The NO 96 type storage tank includes primary and secondary sealing walls made of Invar (36% nickel steel) membranes with a thickness of 0.5 to 0.7 mm, and insulators such as perlite powder in a plywood box. It includes primary and secondary insulation walls provided in the form of filled insulation boxes. The NO 96 type storage tank has almost the same degree of liquid tightness and strength as the primary and secondary sealing walls, so when the primary sealing wall leaks, it can safely support the cargo with only the secondary sealing wall for a considerable period of time.

The MARK Ⅲ type storage tank has a primary sealing wall made of a 1.2mm thick stainless steel (SUS) membrane, a secondary sealing wall made of a triplex, and wood on the top or bottom of the polyurethane foam (PUF). It includes primary and secondary insulation walls provided with insulation panels bonded with plywood. The primary sealing wall of the MARK III type storage tank has corrugated corrugations to absorb heat shrinkage caused by LNG in cryogenic conditions, and since it absorbs the deformation of the membrane at the corrugated corrugation, there is no significant stress in the membrane.

MARK Ⅲ type storage tank is disadvantageous in terms of installation/manufacturing due to low welding automation rate of the primary sealing wall with corrugated wrinkles, but compared to Invar membrane, stainless steel membrane and triplex are cheaper and easier to install, and polyurethane Because of the excellent insulation effect of foam, it is widely used with NO 96 type storage tank.

FIG. 1 is a view showing a unit insulation panel constituting the insulation wall of a conventional MARK Ⅲ type storage tank, and FIG. 2 is a view showing a structure in which a sealing wall is fixed on the top of the insulation panel in a conventional MARK Ⅲ type storage tank .

1 and 2, the insulation panel 10 constituting the insulation wall of a conventional MARK III type storage tank is an upper plate 12 made of plywood on top of the insulation 11 made of polyurethane foam. Is provided in an attached form.

An anchor strip 30 for welding the membrane 20 constituting the primary sealing wall is installed on the upper part of the insulating panel 10 constituting the primary insulating wall. For installation of the anchor strip 30, a groove in which the anchor strip 30 is seated is formed in the upper plate 12, and the anchor strip 30 is seated in the groove by a rivet (R). It is fixed at (12). The membrane 20 is fixed to the top of the anchor strip 30 by welding.

In such a conventional thermal insulation system, since the anchor strip 30 is fixed to the thermal insulation panel 10 by a rivet R, the anchor strip 30 is constrained by the thermal insulation panel 10, thereby limiting its behavior. Therefore, when the behavior of the membrane 20 occurs due to heat shrinkage or sloshing load, etc., a load is generated on the welding portion of the anchor strip 30 and the membrane 20, which is the membrane 20 and the anchor strip ( 30), of course, there was a problem of causing excessive stress to the anchor strip 30 and the insulating panel 10 to be fixed.

Therefore, the technical problem to be achieved by the present invention is to provide a flexible behavior of the anchor strip installed on the top of the insulation panel, thereby reducing the stress applied to the welding area between the anchor strip and the membrane and the connection area between the anchor strip and the insulation panel. It is intended to provide an anchor strip installation structure for LNG storage tanks that can be effectively relaxed.

In order to achieve the above object, the present invention is an insulation panel constituting the insulation wall of the LNG storage tank; A membrane installed on the insulating panel; And an anchor strip seated in a groove formed on an upper portion of the heat insulating panel and fixing the membrane by welding, wherein the anchor strip includes: a lower strip fixed to a bottom portion of the groove; An upper strip disposed above the lower strip and welding the membrane to an upper surface; And a plurality of rolling members arranged to enable a rolling motion between the lower strip and the upper strip so as to slidably support the upper strip on an upper portion of the lower strip. An anchor strip installation structure of an LNG storage tank to provide.

A first groove in which the rolling member is seated may be formed on an upper surface of the lower strip, and a second groove may be formed in a position corresponding to the first groove on a lower surface of the upper strip so that the rolling member is placed.

The rolling member may be provided in the form of beads or rollers.

The rolling member may be formed of a metal material including steel.

Surfaces facing the lower strip and the upper strip may be disposed to be spaced apart.

A surface facing the lower strip and the upper strip may be disposed to abut, and a film may be coated on a surface where the lower strip and the upper strip abut to enable smooth sliding.

The anchor strip further includes a fixing member for fixing the upper strip to the lower strip, and the fixing member is installed at the center of the anchor strip, and restricts the upper strip and the lower strip only in a vertical direction, The upper strip may be provided to rotate and slide with respect to the lower strip about the fixing member.

The fixing member may be formed to protrude from a central portion of a lower surface of the upper strip, and may be provided integrally with the upper strip.

A hole into which the fixing member is inserted and fastened may be formed in a central portion of the lower strip.

The lower strip may be fixed to the bottom surface of the groove formed in the heat insulating panel by bonding.

In addition, another aspect of the present invention for achieving the above object, in the structure of installing a membrane on the insulation panel constituting the insulation wall of the LNG storage tank, anchor strips in the groove formed on the top of the insulation panel And the membrane is fixed to the upper end of the anchor strip by welding, and the anchor strip is divided into a lower strip and an upper strip, and a rolling member capable of rolling motion is interposed between the two partitions so that the upper strip is By being slidably supported on the lower strip, it provides an anchor strip installation structure for an LNG storage tank, characterized in that flexible movement of the upper strip with respect to the insulation panel is possible.

A fixing member for fixing the upper strip and the lower strip may be installed at the center of the anchor strip, and the upper strip may be provided to rotate and slide with respect to the lower strip around the fixing member.

According to the present invention, a flexible behavior of the anchor strip installed on the upper part of the insulation panel is possible, so that the stress applied to the welding area between the anchor strip and the membrane and the connection area between the anchor strip and the insulation panel is relieved.

1 is a view showing a unit insulation panel constituting the insulation wall of a conventional MARK Ⅲ type storage tank.
2 is a view showing a structure in which a sealing wall is fixed on an upper portion of an insulating panel in a conventional MARK Ⅲ type storage tank.
3 is a view showing the anchor strip installation structure of the LNG storage tank according to the present invention.
4 is a view from above of the anchor strip installation structure shown in FIG. 3.
5 is a view for explaining the effect of the anchor strip installation structure of the LNG storage tank according to the present invention.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the implementation of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing a preferred embodiment of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

In the present invention, the use of the terms'primary' and'secondary' refers to whether the LNG is primarily sealed or insulated based on the LNG stored in the storage tank, or the secondary is sealed or insulated. It was used as a classification standard for whether or not.

Also, by convention, the terms'upper' or'up' applied to an element of a tank refer to a direction toward the inside of the tank, regardless of the direction to gravity, and likewise, the term'lower' or'down' refers to gravity. Regardless of the direction, it refers to the direction toward the outside of the tank.

Figure 3 is a view showing the anchor strip installation structure of the LNG storage tank according to the present invention, Figure 4 is a view from above the anchor strip installation structure shown in Figure 3, Figure 5 is a view of the LNG storage tank according to the present invention It is a diagram for explaining the effect of the anchor strip installation structure. For convenience of explanation, the membrane is not shown in FIG. 4.

Referring to FIG. 3, the insulation panel 100 constituting the insulation wall in the LNG storage tank according to the present invention includes an insulation material 110 made of polyurethane foam (PUF) or reinforced polyurethane foam (R-PUF), It includes an upper plate 120 attached to the upper portion of the insulating material 110.

The upper plate 120 is made of a composite material such as plywood or glass reinforced plastic (GRP) and serves to impart mechanical rigidity to the panel. Although not shown in the drawings, the insulation panel 100 may further include a lower plate attached to the lower portion of the insulation material 110.

An anchor strip 300 to which the membrane 200 constituting the sealing wall is welded is installed on the insulating panel 100. In order to provide a space in which the anchor strip 300 is to be installed, a groove is formed in the upper portion of the insulation panel 100.

In this embodiment, the anchor strip 300 is disposed between the lower strip 310 and the upper strip 320 that are divided and manufactured, as shown in FIG. 3, and the lower strip 310 and the upper strip 320. It may be configured to include a rolling member 330.

The lower strip 310 is fixed to the upper surface of the insulating material 110 of the insulating panel 100 by an adhesive, and the end is supported by a locking jaw formed on the upper plate 120 to be separated from the insulating panel 100 This can be prevented.

The upper strip 320 may be slidably supported on the upper portion of the lower strip 320 by a rolling member 330 disposed between the lower strip 320 and the lower strip 320.

A groove in which the rolling member 330 is seated is formed on the upper surface of the lower strip 310, and a groove in a position corresponding to the groove of the lower strip 310 so as to be mounted on the rolling member 330 is formed on the lower surface of the upper strip 320. Can be formed.

The upper strip 320 may be made of a metal material for welding with the membrane 200, and the lower strip 320 may be made of various materials such as metal, plywood, or composite material.

The rolling member 330 may be disposed in a space in which grooves provided in the lower strip 310 and the upper strip 320 face each other. The rolling member 330 may be provided in plural, and correspondingly, the grooves may be provided in plural.

The rolling member 330 rolls inside the groove so that the upper strip 320 can slide with respect to the lower strip 310.

In this embodiment, the rolling member 330 may be provided in a bead shape as shown in the drawing. However, the present invention is not limited thereto, and the rolling member 330 may be any member that allows the upper strip 320 to slide, and may be provided in the form of a roller, for example.

The rolling member 330 may be made of a hard material, for example, a metal material including steel in order to provide support for the upper strip 320.

In this embodiment, the surface of the upper strip 320 excluding the groove may be disposed to be in contact with the surface of the lower strip 310 excluding the groove or disposed to be spaced apart from each other. When the two sides are arranged to be in contact, a smooth film may be coated on each side to enable smooth sliding.

A pair of rolling members 330 may be provided so as to face each other with respect to the center line in the width direction of the anchor strip 300, and the pair of rolling members 330 may be spaced apart along the longitudinal direction of the anchor strip 330. It can be provided in plural.

Meanwhile, in the present embodiment, the anchor strip 300 may further include a fixing member 340 for fixing the upper strip 320 to the lower strip 310 so as to prevent separation of the upper strip 320. .

The fixing member 340 may be integrally formed with the upper strip 320, may be formed to protrude from the lower portion of the upper strip 320, and may be inserted into and fastened to a hole formed in the lower strip 310. The fixing member 340 may be fastened by extending its lower end to the heat insulating material 110 of the heat insulating panel 100.

In the present embodiment, the fixing member 340 and the upper strip 320 are provided in an integral configuration, since it is preferable that the membrane 200 is welded to the upper surface of the upper strip 320, a part of the membrane 200 is fixed. This is to avoid welding with the member 340.

Therefore, if the fixing member 340 does not reach the upper surface of the upper strip 320, the fixing member 340 of the present embodiment may be provided in a separate configuration provided separately from the upper strip 320.

In this embodiment, it is preferable that only one fixing member 340 is installed in the center of the anchor strip 300, as shown in FIG. 4. That is, the fixing member 340 may be formed to protrude from the center of the lower surface of the upper strip 320, and a hole formed in the lower strip 310 to be fastened with the fixing member 340 is also the lower strip 310 ) Can be formed in the center of.

In addition, in this embodiment, the fixing member 340 may constrain the lower strip 310 and the upper strip 320 only in the vertical direction. Accordingly, in this embodiment, the upper strip 320 can rotate the fixing member 340 in the left-right direction along the axis in a space within the groove formed in the upper plate 120. At this time, rotation and sliding of the upper plate 120 may be made more flexible by the rolling member 330.

As shown in Figure 5, the anchor strip installation structure of the LNG storage tank according to the present invention, the upper strip 320 to which the membrane 200 is fixed by welding is a fixing member 340 at the top of the lower strip 310. ) By rotating and sliding around the axis, the flexible behavior of the anchor strip 300 with respect to the insulation panel 100 is possible.

Therefore, the present invention can flexibly cope with the behavior of the membrane 200 by rotation of the upper strip 320, even if the behavior of the membrane 200 occurs due to heat shrinkage or sloshing load, and accordingly, the anchor strip 300 ) And the welded portion of the membrane 200 and the stress applied to the connecting portion of the anchor strip 300 and the insulating panel 100 is relieved. In addition, the present invention enables flexible coping with the behavior transmitted from the hull.

It is apparent to those of ordinary skill in the art that the present invention is not limited to the disclosed embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

100: insulation panel
110: insulation 120: upper plate
200: membrane
300: anchor strip
310: lower strip 320: upper strip
330: rolling member 340: fixing member

Claims (12)

Insulation panels constituting the insulation wall of the LNG storage tank;
A membrane installed on the insulating panel; And
It is seated in the groove formed on the upper portion of the insulation panel, and includes an anchor strip to which the membrane is fixed by welding,
The anchor strip,
A lower strip fixed to the bottom of the groove;
An upper strip disposed above the lower strip and welding the membrane to an upper surface; And
Including a plurality of rolling members disposed between the lower strip and the upper strip to enable a rolling motion, and slidably supporting the upper strip on the upper portion of the lower strip,
Anchor strip installation structure for LNG storage tanks. The method according to claim 1,
A first groove in which the rolling member is seated is formed on the upper surface of the lower strip,
A second groove is formed at a position corresponding to the first groove so that the rolling member is mounted on the lower surface of the upper strip,
Anchor strip installation structure for LNG storage tanks. The method according to claim 2,
The rolling member is characterized in that provided in the form of beads or rollers,
Anchor strip installation structure for LNG storage tanks. The method of claim 3,
The rolling member is characterized in that provided with a metal material including steel (steel),
Anchor strip installation structure for LNG storage tanks. The method of claim 3,
The surface facing the lower strip and the upper strip is characterized in that it is arranged to be spaced apart,
Anchor strip installation structure for LNG storage tanks. The method of claim 3,
A surface facing the lower strip and the upper strip is disposed to abut, and a film is coated on the surface where the lower strip and the upper strip abut, so as to allow smooth sliding,
Anchor strip installation structure for LNG storage tanks. The method of claim 3,
The anchor strip further includes a fixing member for fixing the upper strip to the lower strip,
The fixing member is installed at the center of the anchor strip, and restricts the upper strip and the lower strip in an up-down direction, so that the upper strip is capable of rotating and sliding with respect to the lower strip about the fixing member. doing,
Anchor strip installation structure for LNG storage tanks. The method of claim 7,
The fixing member is formed to protrude from the central portion of the lower surface of the upper strip, characterized in that provided in an integral configuration with the upper strip,
Anchor strip installation structure for LNG storage tanks. The method of claim 8,
A hole in which the fixing member is inserted and fastened is formed in the central portion of the lower strip,
Anchor strip installation structure for LNG storage tanks. The method of claim 7,
The lower strip is fixed by bonding to the bottom of the groove formed in the insulating panel,
Anchor strip installation structure for LNG storage tanks. In the structure of installing a membrane on the insulation panel constituting the insulation wall of the LNG storage tank,
An anchor strip is seated in a groove formed on the upper part of the insulation panel, and the membrane is fixed to the upper end of the anchor strip by welding,
The anchor strip is divided into a lower strip and an upper strip, and the upper strip is slidably supported by the lower strip by interposing a rolling member capable of rolling motion between the two divided bodies, so that the upper strip for the insulating panel Characterized in that the flexible behavior of,
Anchor strip installation structure for LNG storage tanks. The method of claim 11,
A fixing member for fixing the upper strip and the lower strip is installed at the center of the anchor strip, wherein the upper strip rotates and slides with respect to the lower strip around the fixing member,
Anchor strip installation structure for LNG storage tanks.

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