KR200491756Y1 - Level maintenance apparatus for membraine of membraine type storage tank, level maintenance member for membraine and insukation system with the same - Google Patents

Abstract

The horizontal maintenance device of the insulating wall of the membrane-type storage tank of the present invention is coupled between neighboring unit insulating walls constituting the insulating wall of the membrane-type storage tank, and constrains the unit insulating wall so that a step does not occur between the combined unit insulating walls. According to the present invention, by including a bolt for fixing the heat-insulating wall horizontal holding member to the unit heat-insulating wall by being inserted into a groove formed in the unit heat-insulating wall through the heat-insulating wall horizontal holding member and the heat-insulating wall horizontal holding member. Steps are generated in the insulating walls constituting the thermal insulation system of the membrane-type storage tank so that no large stress is generated in the sealing walls on the insulating walls.

Description

Insulating wall horizontal holding device of membrane type storage tank, horizontal holding member constituting it, and insulating system of membrane type storage tank including them. SAME}

The present invention relates to a horizontal holding member for maintaining the fixing of an insulating wall constituting an insulating system of a membrane-type storage tank, a horizontal holding device including the same, and an insulating system including the same.

Natural gas is a fossil fuel that contains methane as a main component and contains a small amount of ethane and propane, and has recently been spotlighted as a low-pollution energy source in various technical fields.

Natural gas is transported in gaseous form through on-shore or offshore gas piping, or transported to remote consumers while stored in LNG carriers in the form of liquefied natural gas (LNG). Liquefied natural gas is obtained by cooling natural gas to an extremely low temperature (approximately -163 ° C or less), and its volume is reduced to approximately 1/600 compared to natural gas in a gas state, making it suitable for long-distance transportation through sea.

A liquefied natural gas carrier is equipped with a storage tank (also referred to as a cargo hold) for storing and storing liquefied natural gas liquefied by cooling natural gas. The boiling point of liquefied natural gas is about -162 ° C at atmospheric pressure, so the storage tank of liquefied natural gas is a material that can withstand ultra-low temperatures such as aluminum steel, stainless steel, and 35% nickel steel to safely store and store liquefied natural gas. It can be manufactured and is designed to be resistant to heat stress and heat shrinkage and to prevent heat intrusion.

LNG carriers for loading LNG and unloading LNG to land demand by operating the sea, LNG RV (Regasification Vessel) loading LNG and reloading the stored LNG to natural gas state after arriving at the land demand by operating the sea, recently This includes storage tanks installed on LNG carriers or LNG RVs in floating offshore structures such as LNG Floating, Production, Storage and Offloading (FPSO) or LNG Floating Storage and Regasification Unit (FSRU).

LNG FPSO is a floating offshore structure used to liquefy the produced natural gas directly at sea and store it in a storage tank, and transfer LNG stored in the storage tank to an LNG carrier if necessary. In addition, the LNG FSRU is a floating offshore structure that stores LNG unloaded from an LNG carrier in a storage tank at a sea far from the land and then vaporizes the LNG as needed to supply it to the land demand.

In this way, a storage tank for storing LNG in a cryogenic state is installed in an offshore structure such as an LNG carrier, LNG RV, LNG FPSO, and LNG FSRU that transports or stores liquid cargo such as LNG at sea.

Such storage tanks can be classified into an independent tank type and a membrane type according to whether a load of a cargo directly acts on an insulating material. The membrane type storage tank is divided into GTT NO 96 type and TGZ Mark III type, and the independent tank type storage tank is divided into MOSS type and IHI-SPB type.

The TGZ Mark III type storage tank, which is a form of a conventional liquefied natural gas storage tank, has a primary sealing wall, a primary insulating wall 2, a secondary sealing wall 3 and 2 from the inside of the insulating tank as shown in FIG. The structure of the primary insulating wall 4 is sequentially stacked, the insulating wall is made of unit panels 2 and 4, which are manufactured at a level of approximately 1 m × 3 m, and arranged so that they form one layer, and the sealing wall is an insulating wall And the edges are overlapped so that they do not coincide.

Thus, the panel layer is discontinuously installed at the edge of each unit panel, and a step may occur in the height direction according to the behavior of the hull at this boundary surface.

As shown in FIG. 2, when a step occurs at the boundary between unit panels, a large stress is generated in a portion of the sealing wall, particularly the primary sealing wall 1, which is stacked on the insulating wall, where the step occurs.

The primary sealing wall 1 is a thin plate-shaped membrane, and when a step is generated in the insulating wall installed below, a great stress is generated in the plate-shaped membrane, which causes problems in the function of the insulating system. When the sealing or insulating function of the liquid cargo is deteriorated by this, the liquid cargo with danger may explode or leak.

The present invention has been devised to solve the above-mentioned problems, and the present invention has a membrane-type storage for preventing a large stress on the sealing wall on the heat-insulating wall due to a step difference in the heat-insulating wall constituting the heat-insulating system of the membrane type storage tank. An object of the present invention is to provide an insulating wall horizontal holding device for a tank, an insulating wall horizontal holding member constituting the same, and an insulating system of a membrane-type storage tank including the same.

The horizontal maintenance device of the insulating wall of the membrane-type storage tank of the present invention is coupled between neighboring unit insulating walls constituting the insulating wall of the membrane-type storage tank, and constrains the unit insulating wall so that a step does not occur between the combined unit insulating walls. The insulating wall horizontal holding member and a bolt that penetrates the insulating wall horizontal holding member and is inserted into a groove formed in the unit insulating wall to fix the insulating wall horizontal holding member to the unit insulating wall.

Here, the horizontal holding member of the insulating wall is characterized in that it is seated and coupled to a member groove formed at an edge of the unit insulating wall so that the height of the upper surface of the horizontal holding member and the upper surface of the unit insulating wall are the same. .

In addition, the groove formed in the horizontal wall holding member is formed in a slot hole (slot hole) shape, characterized in that the bolt is slid in the long axis direction of the slot hole when the unit insulating wall heat shrink.

The long axis direction of the slot hole is a more specific feature that the unit heat insulating wall is a direction in which heat is contracted.

And, when the angle between the long axis of the slot hole and the longitudinal direction of the unit insulating wall is θ, it is characterized in that 2.5≤tan (90˚-θ) ≤3.5.

The horizontal insulation member may be seated and coupled on member grooves formed at four adjacent unit insulation wall edges.

Meanwhile, one slot hole of the horizontal wall holding member and a slot hole disposed on a diagonal line of the slot hole may be connected to each other.

Further, the socket further inserted into the socket groove formed in the member groove of the unit insulating wall and a rivet for fixing the socket to the member groove of the unit insulating wall, the bolt further comprises a bolt hole formed in the socket Can be inserted.

Here, when the unit insulating wall is heat-shrinked, the socket is characterized in that it slides within the socket groove.

In addition, the unit insulation wall is characterized in that it constitutes a primary insulation wall corresponding to the inside of the storage tank among the double insulation walls of the membrane-type storage tank.

Insulating wall horizontal holding member of the membrane-type storage tank of the present invention is seated and coupled to member grooves formed at corners of two or more unit insulating walls constituting the insulating wall of the membrane-type storage tank, between the two or more unit insulating walls. The two or more unit insulating walls are constrained to prevent a step.

In addition, the horizontal insulating member of the insulating wall is formed with a slot hole on a flat surface, so that a bolt for penetrating the slot of the insulating wall horizontal holding member to the unit insulating wall is formed in the slot hole. It is characterized in that it can be slid.

Further, when the long hole direction of the slot hole is coupled to the unit heat insulating wall, the unit heat insulating wall is formed in a direction in which heat shrinks.

Also, any one slot hole and a slot hole disposed on the diagonal of the slot hole may be connected to each other.

The insulation system of the membrane-type storage tank of the present invention includes a plurality of unit insulation walls forming an insulation wall of the storage tank of the membrane, and member grooves respectively formed at four neighboring unit insulation wall edges among the plurality of unit insulation walls. It is seated coupled to, a plurality of laminated on the insulating wall horizontal holding member and the unit insulating wall and the horizontal holding member for constraining the neighboring four unit insulating wall so that a step does not occur between the neighboring four unit insulating walls. The unit includes a sealing wall.

In addition, the horizontal insulating member of the insulating wall is formed with a slot hole on a flat surface, penetrates the slot hole and is inserted into the unit insulating wall to fix the insulating wall horizontal holding member to the unit insulating wall. Further comprising a bolt, the bolt is characterized in that the unit insulating wall is slid in the long axis direction of the slot hole during heat shrink.

The long axis direction of the slot hole may be a contraction direction of the unit heat insulating wall.

Furthermore, one slot hole of the horizontal wall holding member and a slot hole disposed on the diagonal of the slot hole may be connected to each other.

In addition, a socket groove is formed in each of the four unit heat insulating wall member grooves, and a socket and a socket in which a bolt hole for inserting the bolt is inserted and the socket are fixed to the member groove of the unit heat insulating wall It further comprises a rivet, and when the unit insulating wall is heat-shrinked, the socket is further characterized in that it slides in the socket groove.

The unit insulating wall is a primary insulating wall corresponding to the inside of the storage tank among the double insulating walls of the membrane-type storage tank, and the sealing wall is a primary sealing wall contacting the inner space of the membrane-type storage tank. It has a specific feature.

According to the heat-insulating wall horizontal holding device of the membrane-type storage tank of the present invention, the heat-insulating wall horizontal holding member constituting the same, and the heat-insulating system of the membrane-type storage tank including the same, despite the behavior of the hull, the heat-insulating wall constituting the heat insulating system Keep it horizontal so that there is no step between unit insulation walls.

Steps are not generated between the unit insulation walls, so that a large stress is not applied to the sealing wall stacked on the insulation walls.

There is no step between the insulating walls, and there is no significant stress caused by the insulating walls on the sealing walls, so that the sealing and insulating performance of the entire insulating system is safely maintained.

In addition, the horizontal holding member is configured to allow the insulating wall to move horizontally even when the insulating wall is contracted, so that the insulating wall is not deformed or a step is not generated.

1 schematically shows an insulation system of a general membrane-type storage tank.
2 shows a case in which a step is generated in an insulating wall in an insulating system of a general membrane-type storage tank.
Figure 3 shows a part of the thermal insulation system is applied to the horizontal wall maintenance device of the membrane-type storage tank according to the present invention.
4 is an exploded view showing a part of the horizontal retaining device for an insulating wall of a membrane-type storage tank according to the present invention.
Figure 5 shows one configuration of the horizontal maintenance device of the insulating wall of the membrane-type storage tank according to the present invention.
FIG. 6 is an enlarged view of a cross-sectional structure cut along line VI-VI of FIG. 3.
7 is a planar configuration for explaining an insulation system to which the horizontal maintenance device of the insulation wall of a membrane-type storage tank according to the present invention is applied.
8 shows another embodiment of the horizontal holding member of the insulating wall of the membrane-type storage tank according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that in adding reference numerals to components of each drawing, the same components have the same reference numerals as possible even though they are displayed on different drawings. In addition, in the description of the present invention, when it is determined that detailed descriptions of related well-known structures or functions may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Figure 3 shows a part of the heat insulation system of the membrane-type storage tank according to the present invention is applied horizontal insulation device, Figure 4 is an exploded view of a part of the insulation wall horizontal maintenance device of the membrane-type storage tank according to the present invention One, Figure 5 shows one configuration of the horizontal holding device of the insulating wall of the membrane-type storage tank according to the present invention, Figure 6 is an enlarged view showing the cross-sectional configuration of the VI-VI cut line of Figure 3 .

Insulating wall horizontal holding device of the membrane type storage tank according to the present invention constitutes an insulating system of the membrane type storage tank together with the insulating wall by combining the horizontal holding member of the insulating wall on the unit insulating wall constituting the insulating wall.

The thermal insulation system of the membrane-type storage tank of the present invention includes a thermal insulation wall composed of a plurality of unit thermal insulation walls layered together, and a horizontal insulation device and a horizontal insulation device for retaining the thermal insulation wall and the horizontal insulation device to constrain the thermal insulation wall. And a sealing wall laminated on the member.

The thermal insulation system of the membrane-type storage tank has a configuration in which a heat insulating wall including polyurethane foam of heat insulating performance is composed of two, and a sealing wall made of steel is also composed of a double so that they are laminated on the insulating wall.

Insulating wall horizontal holding device of the present invention, referred to by FIGS. 3 to 6, includes an insulating wall horizontal holding member 110 and a bolt 120 for fixing it, and a socket 130 accommodating the bolt 120. It is configured, a step does not occur between the unit insulating walls constituting the thermal insulation system, and allows the contraction of the unit thermal insulation walls, but does not deviate from the horizontal retaining member even if the unit thermal insulation walls shrink.

Insulating wall horizontal holding member 110 is coupled to two or more neighboring unit insulating walls 20, so that two or more adjacent unit insulating walls 20 are not stepped up and down with respect to each other by the behavior of the hull. This is to prevent the unit insulation wall from being horizontal.

The horizontal insulation member 110 of the insulation wall may vary depending on the application environment, but is basically applied between two or more unit insulation walls.

In the city, the four unit insulation walls 20 to be applied most commonly are combined to allow the four unit insulation walls 20 to be horizontal to each other.

To this end, at the corners of the unit heat insulating wall 20, a member groove 21 in which the heat insulating wall horizontal holding member 110 can be seated is formed, and on the four member grooves 21, the heat insulating wall horizontal holding member ( 110) is seated.

The insulating wall horizontal holding member 110 is sufficient to be configured to be the same as the top surface of the unit insulating wall 20, and the planar shape is not limited to the example.

In the example, the horizontal holding member 110 of a planar circular insulating wall is taken as an example, and if it is a form that can be coupled to each unit insulating wall 20, it may be sufficient and may have a rectangular shape.

The member grooves 21 are formed at the corners of each unit heat insulating wall 20 so as to have a shape corresponding to the shape of the heat insulating wall horizontal holding member 110, for example, corresponding to the heat insulating wall horizontal holding member 110 Each may be provided in an arc shape.

The bolt 120 for fixing the insulating wall horizontal holding member 110 to the unit insulating wall 20 penetrates the insulating wall horizontal holding member and is inserted into a groove formed in the unit insulating wall.

A slot hole 111 having an oval shape is formed in the horizontal wall holding member 110, and the slot hole 111 is formed to be stepped at two ends, so that the bolt 120 divided into a head portion and a screw portion is a slot hole. It is possible to slide on (111).

Therefore, when the combined unit heat insulating wall 20 becomes heat shrink, the heat insulating wall horizontal holding member 110 maintains its position, and the bolt 120 relatively slides along the slot hole 111 together with the unit heat insulating wall. do.

Even if the unit insulating wall is heat-shrinked by such a structure, deformation does not occur so that a step occurs between the unit insulating walls, and horizontally, it is possible to minimize damage to the thermal insulation system by limiting shrinkage within a limited range by a slot hole. do.

To this end, the slot hole 111 is formed such that the unit heat-insulating wall in which the long axis direction is indicated by an arrow is heat-shrinked in the center (C) direction as referred to by FIG.

Further, according to the horizontal and vertical ratios of the unit insulation walls, which are preferably applied, when the angle between the long axis of the slot hole and the horizontal or longitudinal direction of the unit insulation walls is θ, the size of θ is 2.5≤tan (90˚ It is preferably formed in the range of -θ) ≤3.5.

And, for fixing and sliding the bolt 120, a socket 130 for receiving the bolt 120 is provided, and the socket 130 is a socket groove formed in the member groove 21 of the unit heat insulating wall 20 ( 22), the bolt 130 is inserted into the socket 130 to form a bolt hole 131 for coupling.

The bolt 120 and the socket 130 are screwed together as described above, so that the unit heat insulating wall 20 slides together when heat-shrinked.

In addition, the socket 130 is composed of a flat portion for fixing to the unit heat insulating wall 20 and an insertion portion for the construction of the bolt hole 31 up and down, and a rivet hole 132 in the upper flat portion of the socket 130 Further formed, the rivet 140 is inserted into the rivet hole 132 to fix the socket 130 to the socket groove 22.

The above-described horizontally insulating members and devices for the insulating walls are applied to the insulating walls constituting the insulating system. In particular, since the primary insulating wall corresponding to the inside of the storage tank has a greater possibility of deformation and contraction, it needs to be considered more actively. In this case, the primary sealing walls stacked thereon do not generate stress in the edge portion of the unit heat insulating wall.

The primary sealing wall is formed by completely overlapping the edge portions, that is, stacked so as to be offset from the unit heat insulating wall and welded to each other. The unit is prevented by generating stress on the unit sealing wall stacked on the edge portion of the unit heat insulating wall. It reduces the risk of leakage through the welds between the sealing walls and ensures the safe performance of the entire insulation system.

Next, FIG. 8 is another embodiment of the above-described horizontal holding member. In the horizontal holding member 210 of FIG. 8, a slot hole is formed such that a slot hole and a slot hole disposed on a diagonal line of the slot hole are connected to each other. This is a possible variation.

One slot hole and a slot hole on a diagonal line are connected to the slot hole, and the rest of the slot holes may be independent. In the illustrated example, a pair of slot holes are connected to each other to form a single slot hole 211 in a cross shape. heard.

The insulation wall horizontal holding device and the entire insulation system including the insulation wall horizontal holding member of the membrane-type storage tank of the present invention are configured as described above, so that even if a large behavior occurs in the hull, a step difference occurs between unit insulation walls. Even if the unit insulating wall is shrunk, it is limited to within the range so as not to deviate, thereby maintaining the entire thermal insulation system stably, contributing to thermal insulation performance and hull safety.

The present invention described above has been described through limited embodiments and drawings, but the present invention is not limited to this, and the technical idea of the present invention and claims described below by a person skilled in the art to which this invention belongs Various modifications and variations are possible within an equivalent range of the range.

20: insulating wall
21: member groove 22: socket groove
110: horizontal holding member
111: slot hole
120: bolt
130: socket
131: bolt hole 132: rivet hole
140: rivet

Claims (20)

In the membrane-type storage tank comprising an insulating wall made of a plurality of unit insulating wall, and a sealing wall stacked on top of the insulating wall,
An insulating wall horizontal holding member coupled between two or more unit insulating walls adjacent to each other, and connecting an upper surface of the unit insulating wall so that a step does not occur at a boundary between the unit insulating walls; And
It includes a bolt that penetrates the horizontal wall insulating member and coupled to the unit insulating wall to secure the horizontal wall insulating member to the unit insulating wall,
The bolt is coupled to be slidable along a hole formed in the horizontal wall holding member, characterized in that during the heat shrink of the unit heat insulating wall sliding along the heat shrinking direction of the unit heat insulating wall,
Horizontal holding device for insulating wall of membrane type storage tank. The method according to claim 1,
The insulating wall horizontal holding member is characterized in that it is seated and coupled to the member groove formed in the upper edge of the unit insulating wall so that the top surface is flush with the top surface of the unit insulating wall,
Horizontal holding device for insulating wall of membrane type storage tank. The method according to claim 2,
The hole is formed in a slot hole shape, characterized in that the bolt is slid in the long axis direction of the slot hole when the unit insulating wall is heat-shrinked.
Horizontal holding device for insulating wall of membrane type storage tank. The method according to claim 3,
The long-axis direction of the slot hole is characterized in that the unit heat-insulating wall is the direction of heat shrink,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 4,
When the angle between the long axis of the slot hole and the longitudinal direction of the unit insulating wall is θ, characterized in that 2.5≤tan (90˚-θ) ≤3.5,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 4,
The horizontal wall holding member is characterized in that it is seated and coupled on the member groove formed at the corner of the adjacent four unit wall,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 6,
One of the slot hole of the horizontal wall holding member and the slot hole disposed on the diagonal of the slot hole, characterized in that connected to each other,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 3,
A socket inserted into a socket groove formed in a member groove of the unit heat insulating wall; And
Further comprising a rivet for fixing the socket to the socket groove,
The bolt is inserted into the bolt hole formed in the socket,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 8,
When the unit insulating wall heat shrink, characterized in that the socket is sliding with the bolt,
Horizontal maintenance device for insulating wall of membrane type storage tank. The method according to claim 3,
The unit insulating wall is characterized in that it constitutes a primary insulating wall corresponding to the inside of the storage tank among the double insulating walls of the membrane-type storage tank,
Horizontal maintenance device for insulating wall of membrane type storage tank. Insulation that is seated and coupled to member grooves formed at corners of two or more unit heat-insulating walls constituting the heat-insulating wall of the membrane-type storage tank, and constraining the two or more unit heat-insulating walls so that a step does not occur between the two or more unit heat-insulating walls In the wall leveling member,
In the horizontal wall holding member, a slot hole is formed on a flat surface, so that a bolt for penetrating the slot wall and fixing the horizontal wall holding member to the unit insulating wall is to be slid in the slot hole. Can,
When the long axis direction of the slot hole is coupled to the unit heat insulating wall, characterized in that the unit heat insulating wall is formed in a direction that heat shrinks,
Insulating wall horizontal maintenance member of membrane type storage tank. delete delete The method according to claim 11,
Characterized in that one slot hole and the slot hole disposed on the diagonal of the slot hole are connected to each other,
Insulating walls of membrane-type storage tanks. A plurality of unit insulating walls forming an insulating wall of the storage tank of the membrane;
Among the plurality of unit insulation walls, the neighboring four unit insulation walls are seated and coupled on member grooves formed at corners of the neighboring four unit insulation walls, so that the neighboring four unit insulation walls do not generate a step between the four neighboring unit insulation walls. An insulating wall horizontal holding member to be constrained; And
And a plurality of unit sealing walls stacked on the unit insulating wall and the horizontal holding member,
The insulating wall horizontal holding member is formed with a slot hole on a flat surface,
It further includes a bolt that penetrates the slot hole and is inserted into the unit insulating wall to fix the horizontal wall holding member to the unit insulating wall.
The bolt is characterized in that the unit insulating wall is slid in the long axis direction of the slot hole during heat shrink,
Insulating system of membrane type storage tank. delete The method according to claim 15,
The long axis direction of the slot hole is characterized in that the contraction direction of the unit insulating wall,
Insulating system of membrane type storage tank. The method according to claim 17,
One of the slot hole of the horizontal wall holding member and the slot hole disposed on the diagonal of the slot hole is characterized in that connected to each other,
Insulating system of membrane type storage tank. The method according to claim 17,
Socket grooves are formed in each of the four unit heat insulating wall member grooves,
A socket inserted into the socket groove and having a bolt hole into which the bolt is inserted; And
Further comprising a rivet for fixing the socket to the socket groove,
When the unit heat insulating wall heat shrink, characterized in that the socket is sliding with the bolt,
Thermal insulation system of membrane type storage tank. The method according to claim 17,
The unit insulating wall is a primary insulating wall corresponding to the inside of the storage tank among the double insulating walls of the membrane type storage tank,
The sealing wall is characterized in that the primary sealing wall in contact with the inner space of the membrane-type storage tank,
Insulating system of membrane type storage tank.

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