KR20210016174A - Support structure for liquified-gas tank - Google Patents

Abstract

A support body for a liquefied gas tank is disclosed. According to an embodiment of the present invention, the support body for a liquefied gas tank comprises: a cylindrical storage tank storing liquefied gas; a flange unit protruding from an outer circumferential surface of the storage tank to the outside and continuously formed in a circumferential direction of the storage tank; a holder unit having a recessed groove storing the flange unit; a fix unit having a clamping space storing the holder unit and continuously formed in the circumferential direction of the storage tank; and a compression unit supported by the fix unit.

Description

Support for liquefied gas tank {SUPPORT STRUCTURE FOR LIQUIFIED-GAS TANK}

The present invention relates to a support for a liquefied gas tank capable of preparing for thermal stress acting on the tank by a low temperature liquefied gas in the field of a liquefied gas tank for a ship.

In general, liquefied gas is a liquid by cooling a gas and is in a low-temperature-high pressure state. As a representative liquefied gas, liquefied natural gas (LNG) has methane as its main component, and the liquefied natural gas is cooled to -163°C, reducing its volume to one-600th of that of a gas.

The liquefied gas in the cryogenic and extremely high pressure conditions is stored or transported using a ship. At this time, the liquefied gas may be accommodated in a storage tank capable of withstanding the pressure of the liquefied gas. On the other hand, in the case of a cylindrical C Type tank, a saddle structure is provided as a supporting structure.

The saddle structure is provided with a pair in the storage tank, the saddle structure on one side is provided to be fixed to the storage tank, and the saddle structure on the other side is provided to be slidable between the storage tank. This is to allow thermal deformation of the storage tank due to low temperature liquefied gas.

1 is a view showing a saddle structure of a conventional liquefied gas tank. As shown, a saddle structure S is provided on one side and the other side of the liquefied gas tank T, respectively. The saddle structure provided on one side is fixed to the storage tank, and the saddle structure provided on the other side is provided to be slidable between the storage tank. Therefore, it is possible to cope with the heat deformation in the longitudinal direction of the storage tank. However, as shown on the left side of the drawing, most of the saddle structures are installed (combined) to surround the outer peripheral surface along the outer peripheral surface of the storage tank.

In this case, since the conventional saddle structure cannot cope with the thermal deformation in the circumferential direction of the storage tank (ie, the change in the storage tank diameter), there is a problem in that the storage tank and the saddle structure are each worn or damaged.

Therefore, it is possible to cope with the thermal deformation in the longitudinal direction of the storage tank, and a new concept of support for the liquid gas tank capable of coping with the heat deformation in the circumferential direction of the storage tank is required.

Republic of Korea Utility Model Publication No. 20-0482288 (2017. 01. 06. Announcement)

The present embodiment is to provide a support for a liquefied gas tank capable of preparing for thermal stress applied to the tank due to a low temperature liquefied gas.

This embodiment may correspond to thermal deformation in the longitudinal direction of the liquefied gas tank.

This embodiment can cope with the thermal deformation of the liquefied gas tank in the circumferential direction.

According to an aspect of the present invention, a storage tank having a cylindrical shape in which liquefied gas is accommodated; A flange portion protruding outward from the outer circumferential surface of the storage tank and continuously formed along the circumferential direction of the storage tank; A holder portion provided with an indentation groove for receiving the flange portion; A fixing part provided with a holding space in which the holder part is accommodated, and continuously formed along the circumferential direction of the storage tank; And a pressing portion supported by the fixing portion, wherein the pressing portion presses the holder portion inward so that the indentation groove may be in close contact with the flange portion.

The holder portion may be provided with a plurality of spaced at both ends along the circumferential direction of the storage tank, and a plurality of the pressing portions may be provided to correspond to the plurality of holder portions.

The holder portion is composed of a contact portion provided with the indentation groove and a body portion coupled to an outer end of the contact portion, and the pressing portion presses the body portion so that the indentation groove may be in close contact with the flange portion.

The body portion is formed to extend in a front-rear direction based on a longitudinal direction of the storage tank, and the body portion and the contact portion may be accommodated in the holding space.

The fix portion may be configured of a base portion supporting the pressing portion, and a pair of cover portions formed to surround the body portion and forming the gripping space between the base portion.

A gap may not be formed between the body portion and the pair of cover portions.

A gap may be formed between the body portion and the pair of cover portions.

The flange part, the holder part, the fix part, and the pressing part are provided with a pair on one side and the other side of the storage tank, respectively, and the holder part disposed on one side of the storage tank is fixedly coupled within the fix part. , The holder part disposed on the other side of the storage tank may be slidably coupled within the fix part.

The pressing portion is provided with a bolt supported by the fix portion, and the indentation groove may be in close contact with or spaced apart from the flange portion according to the rotation of the bolt.

A plurality of the pressing units may be provided along the circumferential direction of the storage tank.

The pressing unit may be provided with a plurality of front and rear directions based on the longitudinal direction of the storage tank.

The flange portion may be provided integrally with the storage tank.

The flange portion may be welded to the storage tank.

The support for a liquefied gas tank according to the present embodiment may be prepared for thermal stress applied to the tank due to the low temperature liquefied gas.

The support for a liquefied gas tank according to the present embodiment may correspond to thermal deformation in the longitudinal direction of the liquefied gas tank.

The support for a liquefied gas tank according to the present embodiment may correspond to thermal deformation in the circumferential direction of the liquefied gas tank.

The support for a liquefied gas tank according to the present embodiment has an effect of improving the maintainability and durability of the liquefied gas tank because it can respond to both thermal deformation in the longitudinal direction and the circumferential direction of the liquefied gas tank.

1 is a view showing a conventional liquefied gas tank and saddle structure.
2 is an exploded view of the support for a liquefied gas tank of the present invention.
3 is a combination diagram of the support for a liquefied gas tank of the present invention.
4 is a combined cross-sectional view of a support for a liquefied gas tank according to a first embodiment of the present invention.
5 is an exploded cross-sectional view of a support for a liquefied gas tank according to the first embodiment of the present invention.
6 is a cross-sectional view of a support for a liquefied gas tank according to a second embodiment of the present invention.
7 is a perspective view of a support for a liquefied gas tank of the present invention.
8 is a side view of a support for a liquefied gas tank of the present invention.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. The following examples are presented in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains, and may be embodied in other forms without being limited thereto. In the drawings, in order to clarify the present invention, portions not related to the description may be omitted, and the size of components may be slightly exaggerated to help understanding.

2 to 4, the support for a liquefied gas tank according to an embodiment of the present invention includes a storage tank 100 having a cylindrical shape in which liquefied gas is accommodated, and the storage tank 100 protrudes outward from the outer circumferential surface of the storage tank 100 and stores The flange portion 200 formed continuously along the circumferential direction of the tank 100, the holder portion 300 provided with an indentation groove H in which the flange portion 200 is accommodated, and the holder portion 300 are accommodated. A holding space (P) is provided and includes a fixing part 400 continuously formed along the circumferential direction of the storage tank 100 and a pressing part 500 supported by the fixing part 400, and the pressing part 500 ) May be in close contact with the flange portion 200 by pressing the holder portion 300 inward.

The support for a liquefied gas tank of the present invention is provided with a storage tank 100 having a cylindrical shape. The storage tank 100 is provided with a space in which cryogenic liquefied gas can be accommodated. For example, a cryogenic liquefied gas such as liquefied natural gas (LNG), liquefied nitrogen gas (LN2), compressed natural gas (CNG), and the like may be stored in the storage tank. In addition, the storage tank 100 is preferably made of a stainless steel material to withstand the pressure of liquefied gas of extremely high pressure, but it is also possible to be made of other material of a material capable of withstanding the liquefied gas of cryogenic and extremely high pressure.

And in the case of the present invention, the flange portion 200 is provided. The flange portion 200 is formed to protrude outward from the outer peripheral surface of the storage tank 100. And the flange portion 200 is formed continuously along the circumferential direction of the storage tank (100). Therefore, the flange portion 200 may be formed in a ring shape along the circumferential direction of the storage tank 100. The flange portion 200 is accommodated in the holder portion 300 to be described later indented groove (H). Accordingly, the flange portion 200 is supported by the holder portion 300, and the holder portion 300 is supported by a fix portion 400 to be described later. On the other hand, since the flange portion 200 is formed along the outer circumferential surface of the storage tank 100 in a ring shape, even if heat deformation in the circumferential direction of the storage tank (that is, a change in the diameter of the storage tank) occurs, the flange portion 200 is It is heat deformed together.

And in the case of the present invention, a holder portion 300 provided with a recessed groove (H) is provided. The above-described flange portion 200 is accommodated in the indentation groove H provided in the holder portion 300. Therefore, the flange portion 200 is supported by the holder portion 300 by being accommodated or seated in the recessed groove (H).

4 is a combined cross-sectional view of a support for a liquefied gas tank according to a first embodiment of the present invention, and FIG. 5 is an exploded cross-sectional view of a support for a liquefied gas tank according to the first embodiment of the present invention.

In addition, in the case of the present invention, as shown in FIGS. 4 to 5, a fixing part 400 in which a holding space P is provided is provided. The holder part 300 is accommodated in the holding space P provided in the fix part 400. Therefore, the holder part 300 is supported by the fix part 400 by being accommodated or seated in the gripping space P. Meanwhile, referring to FIG. 2, a leg portion 460 is provided in the fix portion 400. The leg part 460 is a member that supports the fix part 400 and is in contact with the floor (deck) of the ship, and supports the load of the storage tank 100.

Referring to FIG. 2, in the present specification, a direction toward the center of the storage tank shown on the left side of FIG. 2 is referred to as an inner direction, and a direction from the center of the storage tank toward the flange is defined as an outer direction. This reveals that the direction is only defined in order to explain the present invention easily, and it is not intended to limit the scope of the right by the name of the direction.

And in the case of the present invention, a pressing unit 500 is provided. The pressing part 500 is supported by the fix part 400, and by pressing the holder part 300 inward, the indentation groove H may be in close contact with the flange part 200. Therefore, the flange portion 200 is accommodated in the indentation groove (H), the flange portion 200 is supported by the holder portion 300, the holder portion 300 is accommodated in the gripping space (P), thereby fixing the portion 400 Is supported by

The conventional storage tank for liquefied gas has a problem in that the storage tank and the saddle structure are worn or damaged in the case of thermal deformation of the storage tank in the circumferential direction by being combined with the saddle structure in the circumferential direction.

However, in the case of the support for a liquefied gas storage tank according to the present invention, the flange portion 200 is accommodated in the indentation groove (H), and as described above, the flange portion 200 and the holder portion 300 are not fixedly coupled, but the plan Branch 200 is to be accommodated in the indentation groove (H). Therefore, even if the storage tank 100 is thermally deformed in the circumferential direction, since the flange portion 200 is thermally deformed together in the indentation groove (H), the storage tank 100 and the holder portion 300 are not worn or damaged. It has the advantage of not doing it.

Figure 2 is an exploded view of the support for a liquefied gas tank of the present invention, Figure 3 is a combined view of the support for a liquefied gas tank of the present invention.

Specifically, the holder unit 300 is provided with a plurality of spaced at both ends along the circumferential direction of the storage tank 100, and the pressing unit 500 is provided with a plurality to correspond to the plurality of holder units 300 Can be. Looking at the holder unit 300 shown on the right side of FIG. 2, a total of four holder units 300 are provided. However, the number of holder units 300 is not limited to four, and two, three, or five or more holder units 300 may be provided as necessary. In addition, the plurality of holder parts 300 are disposed along the circumferential direction of the storage tank 100, and both ends of each holder part 300 may be provided to be spaced apart (B) from each other. Accordingly, when the holder part 300 is pressed by the pressing part 500, it is moved inward, and the flange part 200 is inserted into the recessed groove H of the holder part 300 as shown in FIGS. 3 to 4.

In addition, a plurality of pressing units (not shown in FIG. 2) may also be provided to correspond to the plurality of holder units 300. Accordingly, the flange portion 200 may be inserted into the plurality of holder portions 300 and accommodated by pressing the respective holder portions 300 corresponding to the pressing portions 500. In this case, as shown in FIG. 3, a plurality of holder parts 300 may be connected in a circular shape, and since the space separated between the both ends of each holder part 300 disappears, the bonding stiffness (or connection stiffness) is increased. There is this.

In addition, as shown in FIGS. 4 to 6, the holder part 300 according to the present invention includes a contact part 320 provided with a recessed groove H, and a body part 340 coupled to the outer end of the contact part 320. I can. In addition, the pressing part 500 may press the body part 340 so that the indentation groove H is in close contact with the flange part 200. As shown, the holder part 300 may include a contact part 320 and a body part 340. The contact part 320 of the holder part 300 is provided with an indentation groove H, and a body part 340 coupled to the outer end of the contact part 320 (a direction from the center of the storage tank toward the flange part) is provided. . Therefore, the pressing part 500 presses the body part 340 (upward direction in FIG. 4), so that the body part 340 and the contact part 320 coupled with the body part 340 are pushed upward, and the contact part 320 The flange portion 200 is accommodated in the indentation groove (H) provided in ).

4 to 6, in the present specification, a front direction and a rear direction are defined based on the longitudinal direction of the storage tank. This reveals that the direction is only defined in order to explain the present invention easily, and it is not intended to limit the scope of the right by the name of the direction.

Specifically, the body portion 340 is formed to expand in the front and rear directions based on the longitudinal direction of the storage tank 100, and the body portion 340 and the contact portion 320 may be accommodated in the holding space P. Referring to FIGS. 4 to 6, the body portion 340 may be formed so that the front end and the rear end thereof extend in the front and rear direction than the contact portion 320, respectively. Therefore, when the body part 340 and the contact part 320 are accommodated in the gripping space P, the body part 340 is supported by the fix part 400 in the gripping space P, thereby preventing separation in the vertical direction. There is this.

In more detail, the fix part 400 forms a gripping space P between the base part 420 supporting the pressing part 500 and the base part 420 and surrounds the body part 340 It may be composed of a pair of cover parts 440 that are provided so as to be formed. 4 to 6, the pressing part 500 may be supported by the base part 420 of the fix part 400 to press the body part 340 of the holder part 300. In addition, a pair of cover portions 440 that form a gripping space P between the fixing portion 400 and the base portion 420 are provided. Accordingly, a pair of cover portions 440 are formed to surround the body portion 340 of the holder portion 300. Therefore, the holder part 300 is supported between a pair of cover parts 440 in the longitudinal direction of the storage tank 100, and is supported by a pair of cover parts 440 and the base part 420 in the vertical direction. It is supported. Meanwhile, in the drawing, a configuration in which a pair of cover portions 440 is bent at a right angle toward the flange portion 200 after extending upward from both ends of the base portion 420 is shown, but is not limited thereto. The pair of cover portions 440 may include both ends of the base portion 420 in the longitudinal direction and a structure capable of constraining a portion of the top surface.

4 is a cross-sectional view of a support for a liquefied gas tank according to a first embodiment of the present invention. In the case of the support for a liquefied gas tank according to the second embodiment of the present invention, the body portion 340 may not have a gap formed between the pair of cover portions 440. Therefore, the front and rear ends of the body 340 are completely constrained between the pair of cover parts 440. Therefore, even if there is a thermal deformation in the longitudinal direction of the storage tank 100 (ie, the length of the storage tank is changed), the body portion 340 is supported by a pair of cover portions 440.

6 is a cross-sectional view of a support for a liquefied gas tank according to a second embodiment of the present invention. In the case of the support for a liquefied gas tank according to the second embodiment of the present invention, the body portion 340 may have a gap G formed between the pair of cover portions 440. Accordingly, a gap G is formed by being spaced apart between the front and rear ends of the body 340 and the cover 440 between the pair of cover portions 440. Therefore, when there is thermal deformation in the longitudinal direction of the storage tank 100 (ie, the length of the storage tank is changed), contraction or expansion of the storage tank 100 and the flange portion 200 in the longitudinal direction occurs. Therefore, in the indentation groove (H) of the holder portion 300 in which the flange portion 200 is accommodated, a force of the flange portion 200 pressing (forward or rearward) to the contact portion 320 is generated. ) Slides forward or backward. Meanwhile, in the case of the support for a liquefied gas tank according to the second embodiment, a gap is formed between the body portion 340 and the pair of cover portions 440 to form a slidable space.

7 is a perspective view of a support for a liquefied gas tank of the present invention. 7 shows a state in which the storage tank 100, the flange portion 200, the holder portion 300, the fixing portion 400, and the pressing portion 500 are combined.

8 is a side view of a support for a liquefied gas tank of the present invention. On the other hand, as shown in Figure 8, the flange portion, the holder portion, the fixing portion (400, 400"), and a pair of pressing portions 500 may be provided on one side and the other side of the storage tank 100, respectively. In FIG. Although only the storage tank 100 and the fix parts 400 and 400" are shown, a pair of the remaining components (flange part, holder part, pressing part) is also provided in a pair of fix parts 400 and 400", respectively. The holder part may be fixedly coupled in the fix part 400 provided on one side of the storage tank 100. And the holder part may be slidably combined in the fix part 400" disposed on the other side of the storage tank 100. I can. Therefore, the holder part disposed on one side is fixedly coupled within the fixing part 400 to correspond to the longitudinal thermal deformation due to thermal expansion or heat contraction of the storage tank 100, and the holder part disposed on the other side is inside the fixing part 400". Therefore, when cryogenic fuel is charged or discharged while the storage tank is connected on the hull, the holder and the storage tank are not worn or damaged due to thermal deformation in the longitudinal direction of the storage tank. It has been described that the holder part is fixed in the fix part 400 shown on the left, and the holder part slides in the fix part 400" shown on the right, but the position of the pair of fix parts 400 and 400" It is also okay to change, and if necessary, three or more fixing units may be provided.

Further, the pressing part 500 is provided with a bolt supported by the fixing part 400, and the indentation groove H may be in close contact with or spaced apart from the flange part 200 according to the rotation of the bolt. Specifically, a pressing part 500 is provided to penetrate the fix part 400, and a thread is formed inside the fix part 400 so that the bolt slides in the vertical direction in the fix part 400 according to the rotation of the bolt. It can be. Accordingly, the holder part 300 slides in the vertical direction according to the rotation of the bolt, and thus the indentation groove H may be in close contact with or spaced apart from the flange part 200.

In addition, a plurality of pressing parts may be provided along the circumferential direction of the storage tank 100. Referring to FIG. 2, a pressing part (not shown) is provided in the fix part 400 along the circumferential direction of the storage tank 100 and thus can press the holder part 300 respectively.

In addition, the pressing unit 500 may be provided with a plurality of front and rear directions based on the length direction of the storage tank 100. As shown, two pressing units 500 may be provided based on the longitudinal direction of the storage tank 100, and three or more may be provided as necessary. In this way, a plurality of pressing parts 500 are provided to press the holder part 300 to uniformly apply pressure to the holder part 300.

In addition, the flange portion 200 may be provided integrally with the storage tank 100. In this way, when the flange portion 200 and the storage tank 100 are provided integrally, there is an advantage in that sufficient coupling stiffness is secured therebetween.

In addition, the flange portion 200 may be welded to the storage tank 100. The flange portion 200 is preferably made of the same material for welding with the storage tank 100, but it is also possible to be made of the same material for welding. As such, by forming the flange portion 200 through welding to the storage tank 100, the rigidity of the connection portion is sufficiently secured, and in the case of a large storage tank, there is an advantage that it becomes easy to construct or form the flange portion.

100: storage tank
200: flange portion
300: holder part
320: contact part
340: body part
400: gripping space
420: base part
440: cover part
460: leg part
500: pressurization part
H: Indentation groove
P: gripping space

Claims (7)

A cylindrical storage tank in which liquefied gas is accommodated;
A flange portion protruding outward from the outer circumferential surface of the storage tank and continuously formed along the circumferential direction of the storage tank;
A holder portion provided with an indentation groove for receiving the flange portion;
A fixing part provided with a holding space in which the holder part is accommodated and continuously formed along the circumferential direction of the storage tank; And
Includes; a pressing part supported by the fixing part,
The pressing part
A support for a liquefied gas tank in which the indentation groove is in close contact with the flange by pressing the holder inward. The method of claim 1,
The holder part
A plurality of spaced at both ends are provided along the circumferential direction of the storage tank,
The pressing part
A support for a liquefied gas tank provided with a plurality of them corresponding to the plurality of holders. The method of claim 1,
The holder part
It consists of a contact portion provided with the indentation groove and a body portion coupled to an outer end of the contact portion,
The pressing part
A support for a liquefied gas tank in which the indentation groove is in close contact with the flange portion by pressing the body portion. The method of claim 3,
The body part
It is formed to expand forward and backward based on the length direction of the storage tank,
In the holding space
A support for a liquefied gas tank in which the body part and the contact part are accommodated. The method of claim 4,
The fix part
A support for a liquefied gas tank comprising a base portion supporting the pressing portion and a pair of cover portions formed to surround the body portion and forming the gripping space between the base portion. The method of claim 1,
The flange portion, the holder portion, the fixing portion and the pressing portion
A pair is provided on one side and the other side of the storage tank, respectively,
The holder part disposed on one side of the storage tank is fixedly coupled within the fix part,
The holder part disposed on the other side of the storage tank is a support for a liquefied gas tank that is slidably coupled within the fixing part. The method of claim 1,
The pressing part
It is provided with a bolt supported by the fixing part,
A support for a liquefied gas tank in which the indentation groove is in close contact with or spaced apart from the flange portion as the bolt rotates.

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