KR102595970B1 - Combination apparatus for pump tower roof of lng tank - Google Patents

Abstract

The present invention includes a roof insulation unit disposed directly above the pump tower of a cryogenic fluid storage tank; A peripheral insulation unit installed along with the roof insulation unit in a straight line with respect to the structural plate of the hull and connected to the roof insulation unit at a periphery of the roof insulation unit; and an anchor bar fixed to the structural plate of the hull to face each side of the roof insulation unit and the peripheral insulation unit, and the structural plate of the hull disposed outside the roof insulation unit and the peripheral insulation unit is flat. The present invention relates to a coupling device for the pump tower roof of an LNG tank, which allows easy installation of the pump tower roof structure of an LNG tank and provides a pump tower roof structure that is durable against various types of stress.

Description

Combination device for the roof of the pump tower of the LNG tank {COMBINATION APPARATUS FOR PUMP TOWER ROOF OF LNG TANK}

The present invention relates to a coupling device for the pump tower roof of an LNG tank, and more specifically, to easily install the pump tower roof structure of an LNG tank and to provide a pump tower roof structure that is durable against various types of stress. This is about a coupling device for the roof of the pump tower of an LNG tank.

In the insulation panel combination structure of a general cryogenic fluid storage tank including "cargo sloshing reduction device and liquefied gas cargo hold equipped with the same" of Registered Patent No. 10-1571427, the existing pump tower roof and insulation panel around the roof are The bonding structure of membranes, etc. is as follows.

In other words, the pump tower roof and the surrounding area of the pump tower roof are protruding from the upper part of the trunk deck of the LNG carrier, so when installing insulation panels or membranes, installation and construction should be done according to the structural characteristics, that is, the stepped protruding structure. There was a problem that it was very complicated and cumbersome to do this.

In particular, as described above, the protruding pump tower roof and the structure around the pump tower roof have a large number of man-hours and workloads due to installation and construction around the protruding portion, so an increase in time, cost, and the number of unnecessary parts was inevitable.

Registered Patent No. 10-1571427

The present invention was invented to improve the above problems, and is an LNG tank pump that allows easy installation of the pump tower roof structure of the LNG tank and provides a pump tower roof structure that is durable against various types of stress. The purpose is to provide a coupling device for a tower roof.

In order to achieve the above object, the present invention includes a roof insulation unit disposed immediately above the pump tower of a cryogenic fluid storage tank; A peripheral insulation unit installed along with the roof insulation unit in a straight line with respect to the structural plate of the hull and connected to the roof insulation unit at a periphery of the roof insulation unit; and an anchor bar fixed to the structural plate of the hull to face each side of the roof insulation unit and the peripheral insulation unit, and the structural plate of the hull disposed outside the roof insulation unit and the peripheral insulation unit is flat. A coupling device for the roof of the pump tower of an LNG tank can be provided.

Here, the roof insulation unit includes a roof insulation panel made of an insulation material, and a plurality of wooden roof panels surrounding the front surface of the roof insulation panel, wherein the roof wooden panels are parallel to the structural plate of the hull and the It is characterized by being finished by a primary barrier that forms the inner surface of the cryogenic fluid storage tank.

At this time, the roof insulation unit further includes a fixed mastic formed between the structural plate of the hull and the wooden roof panel, and a final rigid insulation portion disposed between the wooden roof panel and the anchor bar. do.

In addition, the peripheral insulation unit is mounted and fixed to the structural plate of the hull, and includes a border secondary insulation assembly facing the anchor bar, and a border secondary insulation assembly that is mounted and fixed to the structural plate of the hull and is in a straight line with the border secondary insulation assembly. It includes a main secondary insulation assembly disposed, wherein the border secondary insulation assembly and the main secondary insulation assembly are covered by a primary barrier forming an inner surface of the cryogenic fluid storage tank, and the primary barrier is It is characterized in that it is arranged in a straight line with the roof insulation unit.

And, the peripheral insulation unit includes a border primary insulation assembly disposed between the border secondary insulation assembly and the primary barrier, and a main primary insulation assembly disposed between the main secondary insulation assembly and the primary barrier. It is characterized in that it further includes.

In addition, the peripheral insulation unit includes a plurality of collar studs mounted on a secondary barrier and spaced apart to cover both the border secondary insulation assembly and the inner surface of the main secondary insulation assembly, and It further includes a primary plug mounted on each of the plurality of color studs to secure each of the border primary insulation assembly and the main primary insulation assembly, wherein an end of the primary plug is fixed to the primary barrier. do.

In addition, the peripheral insulation unit is mounted between the anchor bar and the border secondary insulation assembly and maintains the border secondary insulation assembly in a fixed state with respect to the anchor bar. It is characterized in that it further comprises a secondary flexible insulation part. .

Meanwhile, the present invention includes a roof insulation unit disposed directly above the pump tower of a cryogenic fluid storage tank; and a peripheral insulation unit connected to the roof insulation unit at a periphery of the roof insulation unit, wherein the roof insulation unit and the peripheral insulation unit are installed in a straight line with the structural plate of the hull. It is also possible to provide coupling devices for tower roofs.

According to the present invention having the above configuration, a roof insulation unit disposed immediately above the pump tower of a cryogenic fluid storage tank; A peripheral insulation unit installed along with the roof insulation unit in a straight line with respect to the structural plate of the hull and connected to the roof insulation unit at a periphery of the roof insulation unit; and an anchor bar fixed to the structural plate of the hull to face each side of the roof insulation unit and the peripheral insulation unit, and the structural plate of the hull disposed outside the roof insulation unit and the peripheral insulation unit is flat. It is characterized by eliminating any externally protruding structures, so it has excellent durability against various stresses, is simple to install, and reduces installation costs and time by reducing unnecessary man-hours.

1 is a plan conceptual diagram of a coupling device for the roof of a pump tower of an LNG tank according to an embodiment of the present invention.
Figure 2 is a cross-sectional conceptual diagram showing the internal structure of a coupling device for the roof of a pump tower of an LNG tank according to an embodiment of the present invention, and is a view taken along line AA in Figure 1.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

The examples herein are provided to make the disclosure of the present invention complete and to fully inform those skilled in the art of the scope of the invention.

And the present invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well-known components, well-known operations and well-known techniques are not specifically described in order to avoid ambiguous interpretation of the present invention.

In addition, the same reference numerals refer to the same components throughout the specification, and the terms used (mentioned) in the specification are for explaining embodiments and are not intended to limit the present invention.

In this specification, the singular also includes the plural unless specifically stated in the phrase, and elements and operations referred to as 'including (or, including)' do not exclude the presence or addition of one or more other elements and operations. .

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used with meanings that can be commonly understood by those skilled in the art to which the present invention pertains.

Additionally, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless they are defined.

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

First, Figure 1 is a plan conceptual diagram of a coupling device for the roof of a pump tower of an LNG tank according to an embodiment of the present invention, and Figure 2 is an internal structure of a coupling device for the roof of a pump tower of an LNG tank according to an embodiment of the present invention. It is a cross-sectional conceptual diagram showing a diagram cut along line A-A of FIG. 1.

The roof insulation unit 10 is placed directly above the pump tower of the cryogenic fluid storage tank, and the peripheral insulation unit 20 is installed along with the roof insulation unit 10 in a straight line with respect to the structural plate 40 of the hull. That is, it is connected to the roof insulation unit 10 at the periphery of the roof insulation unit 10, and the anchor bar 30 is positioned on the hull facing each side of the roof insulation unit 10 and the surrounding insulation unit 20. It is fixed to the structural plate (40).

Here, the structural plate 40 of the hull disposed on the outside of the roof insulation unit 10 and the surrounding insulation unit 20 is flat, that is, compared to the existing pump tower roof structure, no part itself protrudes outward from the hull. By eliminating it, it has excellent durability against various stresses, is simple to install, and reduces unnecessary man-hours, making it possible to reduce installation costs and time.

The present invention can be applied to the above-mentioned embodiments, and of course, it is also possible to apply the following various embodiments.

First, the anchor bar 30 can be welded and fixed to the structural plate 40 of the hull, and determines the location where the roof insulation unit 10 and the surrounding insulation unit 20 are installed and constructed, as well as maintaining structural strength. It can be said that it was prepared for this purpose.

Meanwhile, the roof insulation unit 10 includes a roof insulation panel 11 made of an insulating material, and a plurality of wooden roof panels 12 surrounding the entire front of the roof insulation panel 11. The panel 12 is parallel to the structural plate 40 of the hull and is finished by a primary barrier 51 that forms the inner surface of the cryogenic fluid storage tank, and a wooden panel 12 for the roof and an anchor bar 30. ) can be seen facing each other.

Here, the roof insulation unit 10 includes a fixed mastic 60 formed between the structural plate 40 of the hull and the wooden roof panel 12, and between the wooden roof panel 12 and the anchor bar 30. It may further include a final rigid insulation portion 13 disposed in .

At this time, the final rigid insulation unit 13 includes the final rigid insulation block 13a located between the wooden roof panel 12 and the anchor bar 30, and a plurality of blocks surrounding the front surface of the final rigid insulation block 13a. It may include a final guide wooden panel (13b) and a final flexible insulation panel (13c) mounted on the inner surface of the final guide wooden panel (13b) in contact with the anchor bar (30) among the plurality of final guide wooden panels (13b). You can.

The fixed mastic (60) balances the cryogenic fluid storage tank of the LNG carrier so that it does not shake or move during operation, and is attached to the structural plate (40) of the hull and the cryogenic fluid storage tank to properly distribute the weight of the heavy cryogenic fluid storage tank. It is an adhesive-type material that connects fluid storage tanks.

Since LNG carriers transport natural gas by cooling it to -162 degrees Celsius and compressing its volume to 1/600, when building an LNG carrier, wash primer, a high-performance paint, is applied to prevent rust on the hull and then insulate the hull. A fixing mastic (60) is used to adhere and secure the cryogenic fluid storage tank.

In particular, the fixed mastic (60) has the function of appropriately distributing mechanical load and providing uniformity to the hull surface, and is considered one of the most important organic materials for LNG drying.

The final rigid insulation unit 13 is partitioned by the anchor bar 30 when the roof insulation unit 10, which is positioned by the anchor bar 30, is positioned and installed with respect to the structural plate 40 of the hull. It is designed to fill in the shortfall when the installation area of the roof insulation unit 10 is different from the area of the actual roof insulation unit 10 and to increase structural strength and insulation performance.

Meanwhile, the peripheral insulation unit 20 is mounted and fixed to the structural plate 40 of the hull, and is mounted on the border secondary insulation assembly 21 facing the anchor bar 30 and the structural plate 40 of the hull. It includes a main secondary insulation assembly (22) that is fixed and arranged in a straight line with the border secondary insulation assembly (21).

Here, the border secondary insulation assembly 21 and the main secondary insulation assembly 22 are covered by the primary barrier 51 forming the inner surface of the cryogenic fluid storage tank, and the primary barrier 51 is the roof. It can be seen that it is arranged in a straight line with the insulation unit 10.

At this time, the border secondary insulation assembly 21 may include a border secondary insulation panel 21a made of an insulating material and a plurality of border secondary wooden panels 21b surrounding the front surface of the border secondary insulation panel 21a. You can.

The secondary barrier 52 in contact with the border secondary wooden panel 21b is parallel to the structural plate 40 of the hull, and the border secondary wooden panel 21b and the anchor bar 30 face each other. .

In addition, the border secondary insulation assembly 21 may further include a fixing mastic 60 formed between the structural plate 40 of the hull and the border secondary wooden panel 21b.

Meanwhile, the main secondary insulation assembly 22 may include a main secondary insulation panel 22a made of an insulating material and a plurality of main secondary wooden panels 22b surrounding the front surface of the main secondary insulation panel 22a. You can.

Here, the secondary barrier 52 in contact with the main secondary wooden panel 22b is parallel to the structural plate 40 of the hull, and the main secondary wooden panel 22b and the anchor bar 30 face each other. The structure can be applied.

At this time, the main secondary insulation assembly 22 may further include a fixing mastic 60 formed between the structural plate 40 of the hull and the main secondary wooden panel 22b.

Meanwhile, the peripheral insulation unit 20 includes a border primary insulation assembly 23 disposed between the border secondary insulation assembly 21 and the primary barrier 51, the main secondary insulation assembly 22, and the primary insulation unit 20. A main primary insulation assembly 24 disposed between the barriers 51 may be further provided.

Here, the thickness of the border secondary insulation assembly 21 and the main secondary insulation assembly 22 may be thicker or the same as the thickness of the border primary insulation assembly 23 and the main primary insulation assembly 24.

The border primary insulation assembly 23 includes a border primary insulation panel 23a made of an insulating material, and a border primary wooden panel 23b surrounding the front surface of the border primary insulation panel 23a.

The main primary insulation assembly 24 includes a main primary insulation panel 24a made of an insulating material, and a main primary wooden panel 24b surrounding the front surface of the main primary insulation panel 24a.

The border primary wooden panel (23b) and main primary wooden panel (24b) surrounding the upper surfaces of the border primary insulation panel (23a) and main primary insulation panel (24a) are connected to the border secondary insulation assembly (21) and main 2. It is partitioned by a secondary barrier 52 disposed between it and the secondary insulation assembly 22.

The border primary wooden panel (23b) and main primary wooden panel (24b) surrounding the lower surfaces of the border primary insulation panel (23a) and main primary insulation panel (24a) are protected and finished with a primary barrier (51).

Meanwhile, the peripheral insulation unit 20 is provided with color studs ( It is desirable to further include a collar stud (25) and a primary plug (26).

The color studs 25 are mounted in plural numbers and spaced apart from the secondary barrier 52, which is mounted to cover both the inner surfaces of the border secondary insulation assembly 21 and the main secondary insulation assembly 22. The plug 26 is mounted on each of the plurality of color studs 25 to secure each of the border primary insulation assembly 23 and the main primary insulation assembly 24.

Here, the end of the primary plug 26 is fixed to the primary barrier 51. For this purpose, the peripheral insulation unit 20 is fixedly mounted through the fixing hole 51h penetrating the primary barrier 51. It may further include a plug cover (26c) that closes the primary plug (26).

At this time, the peripheral insulation unit 20 is mounted between the anchor bar 30 and the border secondary insulation assembly 21 to maintain the border secondary insulation assembly 21 in a fixed state with respect to the anchor bar 30. Of course, a secondary flexible insulation unit 27 may be further provided.

The secondary flexible insulation unit 27, like the final rigid insulation unit 13 described above, is a border secondary insulation assembly 21 of the peripheral insulation units 20 whose positions are determined by the anchor bar 30 of the hull. When positioned and installed with respect to the structural plate 40, the installation area of the border secondary insulation assembly 21 partitioned by the anchor bar 30 is different from the area of the actual border secondary insulation assembly 21. It is designed to make up for the shortfall and increase structural strength and insulation performance.

It can be seen that this secondary flexible insulating part 27 includes a secondary flexible insulating material 27a made of an insulating material, and a gap correction wooden block 27b that surrounds the upper and lower surfaces of the secondary flexible insulating material 27a, respectively. there is.

The process of installing and constructing a coupling device for the roof of a pump tower of an LNG tank according to various embodiments of the present invention as described above will be briefly examined as follows with reference to FIGS. 1 and 2.

First, the worker welds and fixes a plurality of anchor bars 30 to the structural plate 40 of the hull, and the welding fixing position of the anchor bars 30 is determined by the roof insulation unit 10 and the surrounding insulation placed on the pump tower deck. It can be arranged to determine the installation fixing position of the unit 20.

Afterwards, the worker fixes the border secondary insulation assembly 21 and the main secondary insulation assembly 22 of the peripheral insulation unit 20 to the structural plate 40 of the hull using a fixing mystic 60, etc., A secondary flexible insulation ( 27).

Here, if the above-mentioned empty space is relatively large, it is of course possible to fill it with the final rigid insulating part 13 instead of the secondary flexible insulating part 27.

Next, the worker installs the secondary barrier 52 on the lower side of the border secondary insulation assembly 21 and the main secondary insulation assembly 22, and then welds and secures the collar studs 25.

Continuing, the worker fixes the border primary insulation assembly 23 and the main primary insulation assembly 24 through the collar studs 25 and the primary plug 26, and installs the primary barrier 51. .

Afterwards, the worker installs the roof insulation unit 10 on the structural plate 40 of the hull and fills the empty space between the roof insulation unit 10 and the anchor bar 30 with the final rigid insulation unit 13. This completes the work.

At this time, if the above-mentioned empty space is relatively small, it is of course possible to fill it with the secondary flexible insulation part 27 instead of the final rigid insulation part 13.

As described above, the present invention provides a coupling device for the pump tower roof of an LNG tank that facilitates installation of the pump tower roof structure of the LNG tank and also enables the provision of a pump tower roof structure that is durable against various types of stress. You can see that it is being done with basic technical ideas.

And, of course, many other modifications and applications are possible for those skilled in the art within the scope of the basic technical idea of the present invention.

10...Roof insulation unit
11...Roof insulation panels
12...wooden panel for roof
13...Final rigid insulation section
13a...final rigid insulation block
13b...Final Guide Wooden Panel
13c...Final flexible insulated panel
20...Peripheral insulation unit
21...Border secondary insulation assembly
21a...Border secondary insulation panel
21b...Border 2nd wooden panel
22...Main secondary insulation assembly
22a...Main secondary insulation panel
22b...Main secondary wooden panel
23...Border primary insulation assembly
23a...Border primary insulation panel
23b...Border 1st wooden panel
24...Main primary insulation assembly
24a...Main primary insulation panel
24b...Main 1st wooden panel
25...collar stud
26...Primary plug
26c...plug cover
27...Second flexible insulation section
27a...secondary flexible insulation
27b...Gap correction wooden block
30...Anchor bar
40...Hull structural plate
51...First barrier
51h...fixing hole
52...secondary barrier
60...fixed mastic

Claims (8)

A roof insulation unit disposed directly above the pump tower of the cryogenic fluid storage tank;
A peripheral insulation unit installed along with the roof insulation unit in a straight line with respect to the structural plate of the hull and connected to the roof insulation unit at a periphery of the roof insulation unit; and
It includes an anchor bar fixed to the structural plate of the hull to face the side of each of the roof insulation unit and the peripheral insulation unit,
The structural plate of the hull disposed outside the roof insulation unit and the peripheral insulation unit is characterized in that it is flat,
The peripheral insulation unit is,
a border secondary insulation assembly that is mounted and fixed to the structural plate of the hull and faces the anchor bar; and
It includes a main secondary insulation assembly mounted and fixed to the structural plate of the hull and arranged in a straight line with the border secondary insulation assembly,
The border secondary insulation assembly and the main secondary insulation assembly are covered by a primary barrier forming an inner surface of the cryogenic fluid storage tank,
The primary barrier is characterized in that it is arranged in a straight line with the roof insulation unit,
The peripheral insulation unit is,
a border primary insulation assembly disposed between the border secondary insulation assembly and the primary barrier; and
It further includes a main primary insulation assembly disposed between the main secondary insulation assembly and the primary barrier,
The thickness of the border secondary insulation assembly and the main secondary insulation assembly is thicker than or equal to the thickness of the border primary insulation assembly and the main primary insulation assembly,
The roof insulation unit is,
Roof insulation panels made of insulating material;
A plurality of wooden roof panels surrounding the front of the roof insulation panel;
Fixed mastic formed between the structural plate of the hull and the wooden roof panel; and
It includes a final rigid insulation portion disposed between the roof wooden panel and the anchor bar,
The wooden roof panel is parallel to the structural plate of the hull and is finished by a primary barrier forming the inner surface of the cryogenic fluid storage tank,
The final rigid insulation portion includes a final rigid insulation block located between the roof wooden panel and the anchor bar, a plurality of final guide wooden panels surrounding the front surface of the final rigid insulation block, and a plurality of final guide wooden panels that contact the anchor bar. A coupling device for the pump tower roof of an LNG tank, comprising a final flexible insulation panel mounted on the inner side of the final guide wooden panel. delete delete delete delete In claim 1,
The peripheral insulation unit is,
A plurality of collar studs mounted on a secondary barrier and spaced apart so as to cover both the inner surfaces of the border secondary insulation assembly and the main secondary insulation assembly,
It further includes a primary plug mounted on each of the plurality of color studs to secure each of the border primary insulation assembly and the main primary insulation assembly,
A coupling device for a pump tower roof of an LNG tank, characterized in that the end of the primary plug is fixed to the primary barrier. In claim 1,
The peripheral insulation unit is,
A combination for the pump tower roof of an LNG tank, further comprising a secondary flexible insulation part mounted between the anchor bar and the border secondary insulation assembly to maintain the border secondary insulation assembly in a fixed state with respect to the anchor bar. Device. delete

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