KR102408233B1 - Insulation panel structure for liquid cargo with composite material cell and manufacturing method of this - Google Patents

Abstract

The present invention includes, in a first heat insulating section made of a first material forming a closed cell, a second heat insulating section made of a second material forming an open cell allowing the flow of an inert gas However, an open cell allowing the flow of an inert gas is formed in the first heat insulating part formed by filling and hardening a foam-shaped material made of a first material forming a closed cell. Insulation panel structure for liquid cargo hold consisting of cells of a composite material that allows smooth flow of inert gas while improving thermal insulation performance by manufacturing by arranging a plurality of second heat insulating parts made of a second material, and a method for manufacturing the same it's about

Description

Insulation panel structure for liquid cargo hold composed of cells of composite material and manufacturing method thereof

The present invention relates to an insulating panel structure for a liquid cargo hold composed of cells of a composite material and a method for manufacturing the same, and more particularly, to a liquid cargo composed of cells of a composite material to allow smooth flow of inert gas while improving thermal insulation performance. It relates to a window insulation panel structure and a method of manufacturing the same.

Liquefied natural gas (LNG) is liquefied natural gas at a cryogenic temperature (-163 ℃).

Since liquefied natural gas has a vapor pressure higher than atmospheric pressure and has a very low boiling temperature, the design of a cargo hold for safely storing and storing such liquefied natural gas is very important.

Therefore, in the design of the cargo hold of a ship equipped with a cargo hold of liquefied natural gas, the insulation technology for preventing the boiling of liquefied natural gas due to heat transfer from the outside and the technology for preventing leakage of liquefied natural gas occupy the most important weight.

There are several methods such as independent spherical type (MOSS), free-standing type, membrane type, and integrated type for manufacturing the cargo hold, and the membrane type is the most widely used among them.

Among the membrane methods, NO96 has a structure in which a plywood box is filled with glasswool to insulate it.

As devised from the above viewpoint, there may be mentioned things such as "Cargo hold insulation material for reducing daily evaporation of liquefied natural gas carriers" (hereinafter 'prior art') of Patent Publication No. 10-2014-0070821 No. 10-2014-0070821.

The prior art is to increase the overall insulation effect by combining low-density glass wool applied to the primary insulation area and high-density reinforced-polyurethane foam applied to the secondary insulation area.

However, the prior art has a problem in that the volume and thickness of the insulation area are increased as a whole since the first insulation zone and the second insulation zone are partitioned to improve the insulation effect.

In particular, the prior art has a difference in thermal insulation performance between glass wool and high-density reinforced polyurethane foam, and specifically, there is a problem in that the thermal insulation performance of glass wool is inferior, so there is a limit in promoting a reliable thermal insulation effect.

In addition, the prior art intends to inject an inert gas to flow through the insulation panel, but there is a problem in that the inert gas cannot flow in the high-density reinforced polyurethane foam portion with better insulation performance, so as described above, There is a problem in that the accommodating space of the entire cargo hold is reduced as the volume and thickness are increased by being partitioned into a car insulation zone.

Patent Publication No. 10-2014-0070821

The present invention was invented to improve the above problems, and to provide a thermal insulation panel structure for a liquid cargo hold consisting of a cell of a composite material that allows smooth flow of an inert gas while improving thermal insulation performance and a method of manufacturing the same it is for

In order to achieve the above object, the present invention is a first heat insulating portion made of a first material to form a closed cell (closed cell); and a second heat insulating part disposed in plurality of the first heat insulating part and made of a second material forming an open cell, wherein the second heat insulating part is formed to pass through the first heat insulating part, and It provides an insulating panel structure for a liquid cargo hold made of a cell of a composite material, characterized in that forming an internal flow path through which an inert gas (inert gas) flows.

The first material may be made of phenolic foam, and the second material may be made of glass wool.

The second heat insulating part may be formed in a form in which the second material is filled in a hollow tube tube.

The first heat insulating part may have a block shape of a rectangular parallelepiped, and both ends of the second heat insulating part may be provided to be exposed on both surfaces of the first heat insulating part, respectively.

A plurality of the second heat insulators may be disposed in parallel within the first heat insulator.

The insulation panel structure according to the present invention includes a first frame having a cavity having a shape corresponding to the first insulation portion therein to form the first insulation portion, and insertable from an open side of the first frame and a plurality of cores formed in a shape corresponding to the internal flow path to dispose the second heat insulating part in the first heat insulating part, and a finishing panel for detachably closing the open side of the first frame It may further include a second frame.

The heat insulation panel structure according to the present invention is a second material forming an open cell that allows the flow of an inert gas in the first heat insulating part made of a first material forming a closed cell. It is characterized in that it comprises a second heat insulating portion made of.

In addition, in order to achieve the above object, the present invention provides a first heat insulating part having a cavity of a shape corresponding to the first insulating part in order to manufacture a first insulating part made of a first material forming a closed cell. A first step of preparing one frame; In order to arrange a second heat insulating part made of a second material forming an open cell in the first heat insulating part, a second frame having a plurality of cores having a shape corresponding to the internal flow path of the second heat insulating part is disposed. a second step of placing within the first frame; a third step of inserting the tube-shaped second heat insulating part into the core and injecting a foam-shaped material made of the first material into the cavity; a fourth step of separating the second frame from the first frame when the first material cools and hardens, and separating the first heat insulator from the cavity; and a fifth step of injecting the second material into the second heat insulating part.

As described above, the first material may be made of phenolic foam, and the second material may be made of glass wool.

According to the manufacturing method of the insulation panel structure according to the present invention, the flow of inert gas in the first insulation formed by filling and hardening a foam-shaped material made of a first material forming a closed cell It is manufactured by disposing a plurality of second heat insulating parts made of a second material forming an open cell that allows

According to the present invention having the configuration as described above, the following effects can be achieved.

First, the present invention is a first heat insulating portion made of a first material for forming a closed cell (closed cell); and a second heat insulating part disposed in plurality in the first heat insulating part and made of a second material forming an open cell, wherein both ends of the second heat insulating part pass through the first heat insulating part, and an inert gas ( It is characterized in that an internal flow path through which inert gas) flows is formed, thereby allowing smooth flow of the inert gas while improving thermal insulation performance.

And, the first material according to the present invention is phenolic foam, and the second material is glass wool, so that it is possible to allow smooth flow of inert gas while improving thermal insulation performance. .

And, the first heat insulating part according to the present invention has a rectangular parallelepiped block shape, and both ends of the second heat insulating part penetrate the first heat insulating part and are arranged in parallel so as to be exposed on both surfaces of the first heat insulating part, respectively, so that the inert gas is smoothly discharged Since it is possible to promote the flow, it will be possible to further increase the safety of the liquid cargo hold.

In addition, according to the present invention, a first frame having a cavity having a shape corresponding to the first heat insulating part therein to form the first heat insulating part, and insertable from an open side of the first frame, the second heat insulating part By further providing a second frame comprising a plurality of cores formed in a shape corresponding to the internal flow path and a finishing panel for detachably closing the open side of the first frame in order to arrange the part in the first heat insulating part, It will be possible to find a way to efficiently mass-produce the insulation panel structure for a liquid hold made of cells of the composite material according to the invention.

In addition, according to the present invention, the first step of preparing a first frame having a cavity of a shape corresponding to the first heat insulating part in order to manufacture a first insulating part made of a first material forming a closed cell (closed cell) (S1); In order to form a second heat-insulating part made of a second material forming an open cell in the first heat-insulating part, a second frame having a plurality of cores having a shape corresponding to the internal flow path of the second heat-insulating part is manufactured. a second step (S2) of arranging within one frame; A third step (S3) of inserting a tube-shaped second heat insulator into the core and injecting a foam-shaped material made of a first material into the cavity; a fourth step (S4) of separating the second frame from the first frame when the first material cools and hardens, and separating the first heat insulator from the cavity; and a fifth step (S5) of injecting the second material into the second heat insulating part; it will be possible to allow the smooth flow of the inert gas while improving the heat insulating performance.

1 is a perspective view showing the overall structure of a thermal insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention;
2 is a cross-sectional conceptual view showing the internal structure of the insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention, which is cut along the line II-II of FIG. 1;
3 is a perspective view illustrating a connection arrangement of a thermal insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention;
4 is a schematic cross-sectional plan view showing the internal structure of an apparatus for manufacturing a thermal insulation panel structure for a liquid hold made of a cell of a composite material according to an embodiment of the present invention;
5 is a side conceptual view showing the structure of one side of an apparatus for manufacturing a thermal insulation panel structure for a liquid hold made of a cell of a composite material according to an embodiment of the present invention, as viewed from the point V of FIG. 4 ;
6 is a block diagram showing a method of manufacturing a thermal insulation panel structure for a liquid hold made of a cell of a composite material according to an embodiment of the present invention;

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice 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. Like reference numerals in each figure indicate like elements.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In addition, the following examples may be modified in various other forms, and the scope of the present invention is not limited to the following examples.

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

First, Figure 1 is a perspective view showing the overall structure of the insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention.

And, FIG. 2 is a cross-sectional conceptual view showing the internal structure of the insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention, which is cut along the line II-II of FIG. 1 .

And, Figure 3 is a perspective view of the connection arrangement of the insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention.

And, Figure 4 is a schematic cross-sectional plan view showing the internal structure of the device for manufacturing the insulation panel structure for a liquid hold made of a cell of a composite material according to an embodiment of the present invention.

In addition, FIG. 5 is a side conceptual view showing the structure of one side of an apparatus for manufacturing a thermal insulation panel structure for a liquid hold made of a cell of a composite material according to an embodiment of the present invention, as viewed from the point V of FIG. 4 .

In addition, FIG. 6 is a block diagram showing a method of manufacturing a thermal insulation panel structure for a liquid cargo hold made of a cell of a composite material according to an embodiment of the present invention.

As shown in FIGS. 1 to 3 , the heat insulation panel structure according to the present invention can be understood to have a structure including the first heat insulating part 10 and the second heat insulating part 20 .

The first heat insulating part 10 is made of a first material forming a closed cell, and the first material may be a phenolic foam.

The second heat insulating part 20 is made of a second material forming an open cell that allows the flow of an inert gas, and the second material may be glass wool. In this case, the second heat insulating part 20 may be provided in a form in which the second material is filled in a hollow tube tube.

The second heat insulating part 20 is formed to pass through the first heat insulating part 10, and an internal flow path 21 (refer to FIG. 2 hereinafter) through which an inert gas flows through the second material filled therein is formed. .

The first heat insulating part 10 has a block shape of a rectangular parallelepiped as shown in FIGS. 1 and 3 , and both ends of the second heat insulating part 20 are exposed on both sides of the first heat insulating part 10 as shown in FIG. flow can be allowed. In addition, it is preferable to arrange a plurality of second heat insulating parts 20 in parallel inside the first heat insulating part 10 so that a larger amount of inert gas can flow.

As described above, in order to manufacture the heat insulating panel structure in which the first heat insulating part 10 and the second heat insulating part 20 are formed, in the present invention, the apparatus shown in FIGS. 4 and 5 may be used.

That is, the present invention provides a first frame 30 having a cavity 31 having a shape corresponding to the first heat insulating part 10 therein to form the first heat insulating part 10 , and the first frame 30 . It may further include a second frame 40 insertable from the open side of the.

The second frame 40 may include a plurality of cores 41 and a finishing panel 42 .

In order to arrange the second heat insulating part 20 in the first heat insulating part 10 , the core 41 has a shape corresponding to the internal flow path 21 of the second heat insulating part 20 and is formed in parallel with each other.

The closing panel 42 is to detachably finish the open side of the first frame 30 .

Hereinafter, with respect to a method of manufacturing a thermal insulation panel structure for a liquid hold made of a cell of a composite material according to a preferred embodiment of the present invention, with reference to FIG. 6 together with FIGS. 4 and 5 will be looked at.

The insulation panel structure according to the present invention allows the flow of an inert gas in the first insulation portion 10 formed by filling and hardening a foam-shaped material made of a first material forming a closed cell It can be manufactured by disposing a plurality of second heat insulating parts 20 made of a second material forming an open cell.

This may be manufactured by drilling a hole in the middle of the completed first heat insulating part 10 and inserting the second heat insulating part 20 , or in the process of manufacturing the first heat insulating part 10 , that is, the first It may be manufactured by inserting the second insulating material 20 in the process of solidifying the foam made of the material.

Among them, the second method will be described in more detail as follows.

First, in order to manufacture the first heat insulating part 10 made of a first material for forming a closed cell, the worker has a first heat insulating part 10 and a cavity 31 having a corresponding shape. 1 A frame 30 is prepared. (S1: Step 1)

Next, the operator places the second heat insulating part 20 made of a second material forming an open cell in the first heat insulating part 10, the internal flow path of the second heat insulating part 20 ( A second frame 40 in which a plurality of cores 41 having a shape corresponding to the 21 ) are disposed is disposed in the first frame 30 . (S2: second step)

Subsequently, the operator inserts the tube-shaped second heat insulating part 20 into the core 41 , and injects a foam-shaped material made of the first material into the cavity 31 . (S3: Step 3)

Here, the finishing panel 42 of the second frame 40 closes the open side of the first frame 30, and each end of the core 41 of the second frame 40 is finished as shown in FIG. 1 through a plurality of through-holes 33 penetrating through the closed side facing the open side of the frame 30 together with the end of the second heat insulating portion 20 fitted to each of the core 41 is exposed.

Thereafter, when the first material is cooled and hardened, the operator separates the second frame 40 from the first frame 30 and separates the first heat insulating part 10 from the cavity 31 . (S4: 4th step)

Finally, by filling the second material in the tube-shaped second heat insulating portion 20, the manufacturing of the heat insulating panel structure according to the present invention is completed. (S5: Step 5)

Here, as described above, the first material may be a phenolic foam, and the second material may be a glass surface.

Hereinafter, the action and effect of the insulation panel structure for a liquid hold made of a cell of a composite material according to a preferred embodiment of the present invention and a method for manufacturing the same will be looked at as follows.

First, the present invention includes a first heat insulating portion 10 made of a first material to form a closed cell (closed cell); and a second heat insulating section 20 disposed in plurality in the first heat insulating section 10 and made of a second material forming an open cell, wherein both ends of the second heat insulating section 20 are 1 Penetrating through the heat insulating part 10, characterized in that the internal flow path 21 through which the inert gas flows therein, it is possible to allow the smooth flow of the inert gas while improving the heat insulating performance.

And, the first material according to the present invention is phenolic foam, and the second material is glass wool, so that it is possible to allow smooth flow of inert gas while improving thermal insulation performance. .

In addition, the first heat insulating part 10 according to the present invention has a block shape of a rectangular parallelepiped, and both ends of the second heat insulating part 20 penetrate the first heat insulating part 10 , and both sides of the first heat insulating part 10 . By disposing a plurality of parallel to each other so as to be exposed to each, it is possible to promote a smooth flow of the inert gas, thereby further enhancing the safety of the liquid cargo hold.

In addition, according to the present invention, a first frame 30 having a cavity 31 having a shape corresponding to the first heat insulating part 10 therein to form the first heat insulating part 10, and the first frame ( A plurality of cores 41 that can be inserted from one open side of the 30) and formed in a shape corresponding to the internal flow path 21 in order to arrange the second heat insulating part 20 in the first heat insulating part 10; By further providing a second frame 40 including a closing panel 42 for removably closing one open side of the first frame 30, the insulation panel for a liquid cargo hold made of a composite material cell according to the present invention It will be possible to find a way to efficiently mass-produce the structure.

In addition, according to the present invention, in order to manufacture the first heat insulating part 10 made of a first material forming a closed cell, a cavity 31 having a shape corresponding to the first heat insulating part 10 is formed. A first step (S1) of preparing a first frame (30) with; In order for the second heat insulating part 20 made of a second material forming an open cell to be formed in the first heat insulating part 10 , it corresponds to the internal flow path 21 of the second heat insulating part 20 . a second step (S2) of arranging the second frame 40 in which a plurality of cores 41 are disposed in the first frame 30; A third step (S3) of inserting a tube-shaped second heat insulating part 20 into the core 41, and injecting a foam-shaped material made of a first material into the cavity 31; a fourth step (S4) of separating the second frame 40 from the first frame 30 when the first material is cooled and hardened, and separating the first heat insulating part 10 from the cavity 31; and a fifth step (S5) of injecting the second material into the second heat insulating part 20; it will be possible to allow the smooth flow of the inert gas while improving the heat insulating performance.

As described above, it is understood that the basic technical idea of the present invention is to provide a thermal insulation panel structure for a liquid cargo hold composed of cells of a composite material that allows smooth flow of inert gas while improving thermal insulation performance, and a method for manufacturing the same. can

Various modifications, changes or modifications may be made in the art within the spirit of the present invention and the appended claims, and therefore, the foregoing description and drawings are intended to illustrate the present invention, not to limit the technical spirit of the present invention. should be interpreted

10... first insulation
20...Second insulation
21...internal euro
30... first frame
31...cavity
40...2nd frame
41...core
42...Finishing panel
S1...First step
S2...Second stage
S3...3rd stage
S4... Step 4

Claims (12)

a first heat insulator made of a first material forming a closed cell; and
A plurality of second heat insulators are disposed in the first heat insulator and include a second heat insulator in which a second material forming an open cell is filled in a hollow tube tube,
The second heat insulating part is formed to pass through the first heat insulating part to form a flow path through which an inert gas flows through an open cell therein;
Wherein both ends of the second heat-insulating part are exposed on both surfaces of the first heat-insulating part, respectively, and the exposed surfaces of the second heat-insulating part are on the same plane as each surface of the first heat-insulating part, characterized in that the liquid cargo made of cells of the composite material Insulation panel structures for windows. The method according to claim 1,
The first material is a phenolic foam (phenolic foam), characterized in that, the insulation panel structure for a liquid cargo hold consisting of a cell of a composite material. The method according to claim 1,
The second material is glass wool (琉璃綿, glass wool), characterized in that, the insulation panel structure for a liquid cargo hold consisting of a cell of a composite material. delete The method according to claim 1,
The first heat insulating portion is characterized in that the block shape of a rectangular parallelepiped, the insulation panel structure for a liquid cargo hold made of a cell of a composite material. 6. The method of claim 5,
Insulation panel structure for a liquid cargo hold made of a cell of a composite material, characterized in that the second heat insulating portion is arranged in parallel in a plurality in the first heat insulating portion. The method according to claim 1,
a first frame having a cavity having a shape corresponding to the first heat insulating part therein to form the first insulating part;
A plurality of cores insertable from one open side of the first frame and formed in a shape corresponding to the flow path to arrange the second heat-insulating unit in the first heat-insulating unit, and one open side of the first frame Insulation panel structure for a liquid cargo hold made of a cell of a composite material, characterized in that it further comprises a second frame comprising a finishing panel for detachably finishing the. delete delete delete delete A plurality of second heat insulating parts allowing the flow of an inert gas are disposed in the first heat insulating part formed by filling and hardening a foam-shaped material made of a first material forming a closed cell, 2 The heat insulating part is configured in a form in which a second material forming an open cell is filled inside the hollow tube tube so that both ends are exposed on both sides of the first heat insulating part, respectively, the exposed surface of the second heat insulating part A method of manufacturing a heat insulating panel structure for a liquid cargo hold made of a cell of a composite material so as to form the same plane with each surface of the first heat insulating part.

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