KR101630970B1 - Insulating materials combinational structure and manufacturing method for storage tank - Google Patents

Abstract

The heat insulating material coupling structure of the storage tank according to an embodiment of the present invention is formed of a main thermal insulating material having a plurality of portions spaced apart from each other at a predetermined interval on the outer surface of a storage tank and a material having better elasticity than the main thermal insulating material, Which is provided to fill the opening.
According to another aspect of the present invention, there is provided a method of manufacturing a thermal insulation material for a storage tank, comprising the steps of: providing a main insulation material in each of spaces between flanges protruding in a lattice structure on an outer surface of a storage tank; A step of inserting a bolt member and screwing the bolt member with an outer surface of the storage tank and an auxiliary thermal insulating material having better elasticity than the main thermal insulating material are provided between the main thermal insulating material and the flange, And an auxiliary insulating material bonding step of bonding the main insulating material and the flange to the auxiliary insulating material by bonding.

Description

TECHNICAL FIELD [0001] The present invention relates to a heat insulating material bonding structure for a storage tank,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat insulating material coupling structure and a construction method of a storage tank, and more particularly, to a heat insulating material provided on an outer surface of a storage tank.

Due to rising oil prices and stringent environmental regulations, automobiles and vessels using liquefied gas as fuel are cheaper and more environmentally friendly than petroleum. Here, the liquefied gas includes liquefied gas (LNG) or liquefied petroleum gas (LPG).

Although the liquefied gas is greatly reduced in volume compared to the gas state, it is convenient to store and transport it, but it has a disadvantage that the temperature should be kept at a boiling point (about -162 ° C for LNG and about -50 ° C for LPG). In order to use such liquefied gas as fuel, a liquefied gas storage tank that keeps the liquefied gas below the boiling point is needed.

For example, a storage tank mounted on a ship using liquefied gas as fuel is divided into an integrated type and a separate type storage tank according to a method of joining with a hull, and can be divided into a pressurized type and a non-pressurized type storage tank depending on the degree of pressure resistance.

Since the liquefied gas is at a very low temperature of about -162 ° C or lower at atmospheric pressure, the liquid evaporates and vaporizes due to heat exchange with the outside, thereby generating boil-off gas, thereby raising the pressure of the storage tank, Which causes environmental pollution and lowers economic efficiency. Thus, a general liquefied gas storage vessel performs work to reduce heat penetration to the outside as much as possible by installing insulation or vacuum processing.

For example, the structure shown in FIG. 1 shows a structure in which a plurality of main heat insulating materials 10 'are closely attached to the outer surface of the storage tank T.

When such a liquefied gas storage tank is filled with liquefied gas, a temperature gradient is generated due to the temperature difference between the inside and the outside of the liquefied gas storage tank, and thermal stress is generated in the entire heat insulating structure.

In addition, when the heat insulating material is installed in the storage tank having a large area, there occurs a problem that the heat insulating material shrinks at a cryogenic temperature and the heat insulating material falls off from the storage tank.

Accordingly, there is a need to study a heat insulating material coupling structure and a construction method of a liquefied gas storage tank to solve the above problems.

An object of the present invention is to provide a heat insulating material joining structure and a construction method for preventing the main insulating material from falling off due to thermal deformation of a storage tank.

The heat insulating material coupling structure of the storage tank according to an embodiment of the present invention is formed of a main thermal insulating material having a plurality of portions spaced apart from each other at a predetermined interval on the outer surface of a storage tank and a material having better elasticity than the main thermal insulating material, Which is provided to fill the opening.

The apparatus may further include a bolt member inserted into the insertion hole formed in the main insulating material and screwed to the outer surface of the storage tank so as to fix the main thermal insulating material of the thermal insulating material coupling structure of the storage tank according to an embodiment of the present invention .

According to another aspect of the present invention, there is provided a heat insulating material coupling structure of a storage tank, wherein the bolt member is formed of a metal material and is coupled to the lower bolt coupled to the storage tank and the lower bolt by bonding or welding, And an upper bolt formed of a material having better thermal insulation than the lower bolt and exposed to the outer surface of the main insulation.

In addition, the heat insulating material coupling structure of the storage tank according to an embodiment of the present invention is provided with at least the same heat insulating material as the auxiliary heat insulating material, and a bolt cover heat insulating material formed on at least a part of the outer surface of the main heat insulating material to cover the upper end portion of the bolt member .

Further, the main thermal insulating material of the heat insulating material coupling structure of the storage tank according to an embodiment of the present invention is coupled to a space between the flanges protruding in a lattice structure on the outer surface of the storage tank, and the auxiliary thermal insulating material, And is fixed between the first and second substrates.

Further, the heat insulating material coupling structure of the storage tank according to an embodiment of the present invention further includes at least an end heat insulating material which is provided in the same heat insulating material as the auxiliary insulating material, and which is formed at least on the outer surface of the auxiliary insulating material so as to cover the end portion of the flange .

According to another aspect of the present invention, there is provided a method of manufacturing a thermal insulation material for a storage tank, comprising the steps of: providing a main insulation material in each of spaces between flanges protruding in a lattice structure on an outer surface of a storage tank; A step of inserting a bolt member and screwing the bolt member with an outer surface of the storage tank and an auxiliary thermal insulating material having better elasticity than the main thermal insulating material are provided between the main thermal insulating material and the flange, And an auxiliary insulating material bonding step of bonding the main insulating material and the flange to the auxiliary insulating material by bonding.

According to another aspect of the present invention, there is provided a method of manufacturing a thermal insulation material for a storage tank, the thermal insulation material manufacturing method further including a step of inserting at least the end heat insulation material provided in the same heat insulating material as the auxiliary thermal insulation material so as to cover at least the flange end .

According to the present invention, the main insulating material can be prevented from being broken or dropped even by thermal deformation of the storage tank by providing the main insulating material at a predetermined distance to the storage tank. .

Further, by providing the auxiliary insulating material between the main insulating materials, there is an advantage that the heat insulating property can be ensured.

In addition, by providing a structure that can complement the heat insulating property of the bolt member for engaging with the main insulating member or the flange end of the storage tank, it is possible to secure the heat insulating property of the entire storage tank more firmly.

Figure 1 shows a storage tank according to the prior art.
2 is a view showing a main insulation and an auxiliary insulation installed in the storage tank of the present invention.
FIG. 3 is a perspective view showing the storage tank of the present invention and the main thermal insulation to be coupled to the storage tank. FIG.
4 to 6 are cross-sectional views illustrating a bonding structure of a heat insulating material applied to the storage tank of the present invention.
7A to 7E are sectional views showing the construction of a heat insulating material in the storage tank of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. 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 or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The heat insulating material joining structure and the construction method of the storage tank (T) of the present invention relate to the invention of the heat insulating material provided on the outer surface of the storage tank (T).

That is, the heat insulating material coupling structure and the construction method of the storage tank T of the present invention provide the main thermal insulating material 10 at a predetermined distance to the storage tank T, It is possible to prevent the main insulating material 10 from being broken or dropped.

The auxiliary insulating material 20 is provided between the main insulating materials 10 and the heat insulating property of the end portions of the flange F of the bolt member 30 to the main insulating material 10 or the storage tank T It is possible to secure the heat insulating property of the entire storage tank T more stably by providing a structure that can be supplemented.

2 is a view showing a main thermal insulation material 10 and an auxiliary thermal insulation material 20 applied to the storage tank T of the present invention. T of the main heat insulating material 10. As shown in Fig.

2 (a) is a plan view of the combined state of the main thermal insulating material 10 and the auxiliary thermal insulating material 20, FIG. 2 (b) is a side sectional view, And FIG. 3 (b) shows the main insulation 10 to be coupled to the space between the flanges F of the storage tank T. FIG.

2 and 3, a heat insulating material coupling structure of a storage tank T according to an embodiment of the present invention includes a main thermal insulating material 10 and a plurality of heat insulating materials T bonded to the outer surface of the storage tank T at a predetermined interval. And an auxiliary heat insulating material 20 formed of a material having better elasticity than the main insulating material 10 and provided to cover a space between the plurality of main insulating materials 10.

The main insulating material 10 of the heat insulating material coupling structure of the storage tank T according to an embodiment of the present invention is coupled to a space between the flanges F protruding in a lattice structure on the outer surface of the storage tank T. And the auxiliary thermal insulating material 20 is bonded and fixed between the main thermal insulating material 10 and the flange F. [

That is, the present invention provides a structure that can prevent the main insulating material 10 from being broken or dropped off even by thermal deformation of the storage tank T, while securing the heat insulating property to the storage tank T.

The main insulating material 10 can secure most of the heat insulating property of the storage tank T. For this purpose, a plurality of main insulating materials 10 are provided on the outer surface of the storage tank T, .

The main insulating material 10 may be provided in multiple layers in order to improve the heat insulating performance.

On the other hand, since the auxiliary thermal insulating material 20 to be described later is provided between the plurality of main thermal insulating materials 10, the heat insulating property of the storage tank T can be ensured.

The storage tank T may be provided with a flange F protruding in a lattice structure on its outer surface and the main insulation 10 may be provided in a space between the flanges F of the grid structure .

Here, a bolt member 30 may be further provided for coupling the main insulating material 10 to the storage tank T, and a detailed description thereof will be given later with reference to FIGS. 4 to 5.

The auxiliary heat insulating material 20 can secure the heat insulating property to a part of the storage tank T that the main insulating material 10 can not cover.

For this purpose, the auxiliary insulating material 20 may be provided to cover a plurality of the main insulating materials 10.

Particularly, the auxiliary insulating material 20 should be provided with a material having a higher elasticity than that of the main insulating material 10 to prevent the main insulating material 10 from being damaged due to heat shrinkage of the storage tank T, So as to fill the gap between the main insulating materials 10.

However, the auxiliary insulating material 20 may be provided as a material having somewhat less heat insulation than the main insulating material 10 in order to be provided with a material having better elasticity than the main insulating material 10.

That is, although the thermal conductivity is low and the thermal insulation performance is excellent, the rim of the main thermal insulation material 10 having a small elasticity is higher than that of the main thermal insulation material 10, so that the thermal insulation performance is somewhat deteriorated. However, the thermal insulation material is filled with the auxiliary thermal insulation material 20 having high elasticity, And the heat insulating material coupling structure having a dual structure designed to prevent destruction due to heat shrinkage is proposed.

For example, the main insulating material 10 may be made of polyurethane foam (PUF) or the like, and the auxiliary insulating material 20 may be made of glass fiber or the like. However, it is also possible to use other materials having heat insulation performance besides the above materials as the heat insulating material.

According to the double-structure heat insulating material coupling structure, the maximum stress applied to the main insulating material 10 is reduced by about 68% due to thermal deformation. This is because the double- It is more robust against the impact due to heat shrinkage than the structural insulation.

The auxiliary insulating material 20 is preferably bonded to the main insulating material 10 by bonding so that the auxiliary insulating material 20 can be coupled between the main insulating materials 10.

When the main insulating material 10 is provided in the space between the flanges F of the storage tank T, one side of the auxiliary insulating material 20 is brought into contact with the main insulating material 10, And the other surface can be joined to the flange F by bonding.

However, if the coupling of the auxiliary insulating material 20 with the main insulating material 10 or the flange F is not limited to bonding but can be combined with the main insulating material 10 or the flange F, 20).

4 and 5 are cross-sectional views showing a bonding structure of a heat insulating material applied to the storage tank T of the present invention. FIG. 4 shows an embodiment in which only a part of the end insulating material 40 is formed, And the end heat insulating material 40 is formed on the entire surface.

4 and 5, an insertion hole 11 formed in the main thermal insulation material 10 is formed to fix the main thermal insulation material 10 of the heat insulating material coupling structure of the storage tank T according to an embodiment of the present invention. And a bolt member 30 screwed to an outer surface of the storage tank T. [

In the heat insulating material coupling structure of the storage tank T according to an embodiment of the present invention, the bolt member 30 includes a lower bolt 31 formed of a metal material and coupled to the storage tank T, And an upper bolt 32 which is joined to the lower bolt 31 by bonding or welding and is made of a material having better thermal insulation than the lower bolt 31 and is exposed to the outer surface of the main thermal insulating material 10 .

The heat insulating material coupling structure of the storage tank T according to an embodiment of the present invention is provided with at least the same heat insulating material as that of the auxiliary heat insulating material 20 so as to cover at least the auxiliary insulating material 20 formed on the outer surface thereof.

That is, the bolt member 30 is shown to be coupled to the storage tank T by the main thermal insulation material 10.

The bolt member 30 may serve to couple the main thermal insulating material 10 to the storage tank T. The bolt member 30 is inserted into the insertion hole 11 formed in the main thermal insulation material 10 and can be screwed to the outer surface of the storage tank T. [

Particularly, the bolt member 30 is provided with a bottom bolt 31 coupled with the storage tank T and a top bolt 32 formed of a heat insulating material to ensure the heat insulating property of the storage tank T. can do.

The upper bolt 32 and the lower bolt 31 may be joined by bonding or welding. The upper bolt 32 may be provided at least as a material having better thermal insulation than the lower bolt 31.

The bolt member 30 may be integrally formed without being divided into the upper bolt 32 and the lower bolt 31. In this embodiment, It is preferable to further install the cover heat insulating material 50. A detailed description thereof will be described later with reference to Fig.

When the main thermal insulating material 10 is provided in a space between the flanges F protruding from the lattice structure of the storage tank T, the flange F may be exposed to the outside to reduce the heat insulating performance In order to prevent this, the end portion of the flange F may be further provided with an end insulator 40. [

It is preferable that the end heat insulating material 40 is provided at least as a heat insulating material as the auxiliary heat insulating material 20. As an example, there may be fiber-reinforced plastic (FRP).

In addition, the end heat insulating material 40 may be provided to cover at least the end portion of the flange F, but the entire outer surface including the main insulating material 10 and the auxiliary insulating material 20 may be provided as a cover, So as to prevent foreign matter such as external moisture from penetrating into the heat insulating material 10, the auxiliary insulating material 20, and the like.

FIG. 6 is a cross-sectional view showing a coupling structure of a heat insulating material applied to the storage tank T of the present invention, and shows an embodiment including a bolt cover thermal insulating material 50 for covering the bolt member 30.

6, a heat insulating material coupling structure of the storage tank T according to an embodiment of the present invention is provided with at least the same heat insulating material as the auxiliary thermal insulating material 20, and the upper end portion of the bolt member 30 is covered (50) formed at least on a part of the outer surface of the main insulating material (10).

That is, the bolt member 30 may be integrally formed without being divided into the upper bolt 32 and the lower bolt 31. In this embodiment, the bolt 30 may be provided with bolts The cover insulation 50 can be further installed.

In other words, when the whole of the bolt member 30 is made of a material which is more heat-insulating than the main thermal insulation material 10 and the auxiliary thermal insulation material 20, the bolt member 30 may be inserted into the main thermal insulation material 10, And the outer surface thereof can be covered with the bolt cover thermal insulating material 50. [

7A to 7E are cross-sectional views illustrating the construction of a thermal insulation material in the storage tank T of the present invention. Referring to FIG. 7A, the thermal insulation material construction method of the storage tank T according to another embodiment of the present invention includes: Providing a main thermal insulation material 10 in each space between flanges F protruding in a lattice structure on the outer surface of the main thermal insulation material 10; A step of inserting the bolt member 30 and a main insulating member 10 screwing the bolt member 30 with the outer surface of the storage tank T and a step of inserting the auxiliary insulating member 20 having higher elasticity than the main insulating member 10 An auxiliary insulating material 20 for covering between the main insulating material 10 and the flange F and bonding the main insulating material 10 and the flange F to the auxiliary insulating material 20 by bonding, Coupling step.

The method for constructing the thermal insulation material of the storage tank T according to another embodiment of the present invention includes at least the step of covering the end portion of the flange F with the end heat insulation material 40 provided at least in the same heat insulating material as the auxiliary thermal insulation material 20 And a step of bonding the end insulating material 40 to be applied.

That is, a method for constructing a heat insulating material coupling structure including the main insulating material 10 and the auxiliary insulating material 20 is presented.

The step of providing the main insulating material 10 is a step of placing the main insulating material 10 in the storage tank T having the flange F shown in FIG. This is illustrated in FIG.

That is, in order for the main insulating material 10 to be coupled to the storage tank T, it is first required to be seated on the outer surface of the storage tank T.

The step of joining the main insulating material 10 is a step of joining the main insulating material 10 seated on the outer surface of the storage tank T and the step of joining the main insulating material 10 to the outer surface of the storage tank T by means of the bolt member 30. [ 10).

Particularly, the bolt member 30 is provided with a lower end bolt 31 as a metal material, and can be coupled to a bolt connecting portion N formed on the outer surface of the storage tank T, The upper bolt 32 formed of this superior material is bonded to the lower bolt 31 by bonding or welding, so that the heat insulating performance of the storage tank T can be improved.

However, when the bolt member 30 is formed of a metal material, the bolt cover 30 may be provided with a bolt cover insulator 50 covering the upper end of the bolt member 30.

The coupling step of the auxiliary insulating material 20 is provided to cover the space between the plurality of main insulating materials 10 to improve the heat insulating performance of the storage tank T. [

The auxiliary insulating material 20 may be bonded to the main insulating material 10 by bonding and since the main insulating material 10 is provided in the space between the flanges F, May be bonded to the main insulating material 10 on one side and bonded to the flange F on the other side.

In addition to the above steps, it is possible to further include a step of joining the end heat insulating material 40, which is also covered with a heat insulating material on the end portion of the flange F exposed to the outside to increase the heat insulating performance of the storage tank T will be.

To this end, the end heat insulating material 40 may be provided at least at an end exposed to the outside of the upholstery flange F, and the heat insulating property is preferably at least the same as the auxiliary insulating material 20.

10: main insulator 11: insertion hole
20: Auxiliary insulation 30: Bolt member
31: lower bolt 32: upper bolt
40: end insulator 50: bolt cover insulator

Claims (8)

A main heat insulating member in which a plurality of heat insulating members are spaced apart from each other at regular intervals on an outer surface of a storage tank;
An auxiliary thermal insulator formed of a material having better elasticity than the main thermal insulator and provided to cover a plurality of the main thermal insulators; And
A bolt member inserted into the insertion hole formed in the main insulating material and screwed to the outer surface of the storage tank so as to fix the main insulating material;
/ RTI >
The bolt member
A bottom bolt formed of a metal material and coupled to the storage tank; And
An upper bolt coupled to the lower bolt by bonding or welding and formed of a material having better thermal insulation than the lower bolt and exposed to the outer surface of the main insulation;
And a heat insulating material joining structure of the storage tank. delete delete The method according to claim 1,
A bolt cover insulating material provided at least in the same heat insulating material as the auxiliary insulating material and formed on at least a part of an outer surface of the main insulating material so as to cover an upper end portion of the bolt member;
Further comprising: a heat insulating material joining structure of the storage tank. The method according to claim 1,
Wherein the main insulating material is coupled to a space between the flanges protruding from the outer surface of the storage tank in a lattice structure,
Wherein the auxiliary insulating material is bonded and fixed between the main insulating material and the flange. 6. The method of claim 5,
An end heat insulating material provided at least in the same heat insulating material as the auxiliary insulating material and formed on at least an outer surface of the auxiliary insulating material so as to cover the end portion of the flange;
Further comprising: a heat insulating material joining structure of the storage tank. Providing main insulation in each of the spaces between the flanges protruding in a lattice structure on the outer surface of the storage tank;
Inserting a bolt member into the insertion hole formed in the main insulation member and screwing the bolt member to the outer surface of the storage tank; And
Inserting an auxiliary insulating material having better elasticity than the main insulating material so as to bridge between the main insulating material and the flange and bonding the main insulating material and the flange to the auxiliary insulating material by bonding;
/ RTI >
The bolt member
A bottom bolt formed of a metal material and coupled to the storage tank; And
An upper bolt coupled to the lower bolt by bonding or welding and formed of a material having better thermal insulation than the lower bolt and exposed to the outer surface of the main insulation;
Wherein the method comprises the steps of: 8. The method of claim 7,
Inserting an end insulating material provided at least in the same heat insulating material as the auxiliary insulating material so as to cover at least the flange end;
Further comprising the steps < RTI ID = 0.0 > of: < / RTI >

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