KR102450225B1 - Lifting assembly and storage tank manufacturing method using the same - Google Patents

Abstract

The present invention discloses a method for manufacturing a storage tank. The storage tank manufacturing method comprises: a hole forming process of forming a hole in a dome forming the end of a tank; a hole expansion process of expanding the hole by heating the dome using an induction heater after the hole forming process; a horizontal measurement process of arranging the dome such that the hole opens upwards using a holding frame after the hole expansion process, and arranging a horizontal line passing through the center of the hole at the top of the hole to level; a lifting assembly coupling process of coupling a lifting assembly to a nipple corresponding to the hole; a nipple lifting process of lifting the nipple above the hole by using a crane after the lifting assembly coupling process; a nipple insertion process of inserting the bottom portion of the nipple into the hole until the bottom of the lifting assembly is seated on the outer surface of the dome; and a dome cooling process of cooling the dome so that the hole shrinks and comes into close contact with the outer peripheral surface of the bottom portion of the nipple after the nipple insertion process. Therefore, the present invention can maintain a seal between the nipple and the dome.

Description

Lifting assembly and storage tank manufacturing method using same {LIFTING ASSEMBLY AND STORAGE TANK MANUFACTURING METHOD USING THE SAME}

The present invention relates to a lifting assembly and a method for manufacturing a storage tank using the same.

A storage tank is used to store fuel or compounds in a fluid state therein. The storage tank is generally manufactured in a dome shape at both ends in order to increase pressure resistance.

A general storage tank is made of steel to secure rigidity, and various types of pipes such as a fuel pipe, a leveling pipe, and a filler pipe may be combined here.

Since the fluid stored therein may flow out through the coupling part of the storage tank and the pipe, various methods for making the coupling part between the storage tank and the pipe airtight have been disclosed.

The present invention discloses a method of manufacturing a storage tank capable of hermetically coupling a nipple to the dome of the tank.

The present invention discloses a storage tank manufacturing method using a lifting assembly provided to support the nipple in the process of coupling the nipple to the dome.

The present invention discloses a method for manufacturing a storage tank using a lifting assembly having a structure that can be easily coupled to and separated from a nipple.

A storage tank manufacturing method according to an aspect of the present invention includes a hole forming process of forming a hole in a dome forming the end of the tank; a hole expansion process of expanding the hole by heating the dome with an induction heater in a state in which the hole forming process is completed; a horizontal measurement process of arranging the dome on which the hole expansion process is completed so that the hole is opened upward using a frame, and arranging a horizontal ruler on the top of the hole to pass the center of the hole; a lifting assembly coupling process of coupling the lifting assembly to the nipple corresponding to the hole; a nipple lifting process of lifting the nipple, on which the lifting assembly coupling process is completed, to the upper part of the hole using a crane; a nipple insertion process of inserting the lower end of the nipple into the hole until the lower end of the lifting assembly is seated on the outer surface of the dome; and a dome cooling process of cooling the dome so that the hole is contracted to be in close contact with the outer peripheral surface of the lower end of the nipple in a state in which the nipple insertion process is completed.

The lifting assembly may include: a lifting lug disposed on the upper end of the nipple and having a hook hole through which a hook of the crane is caught; and a supporting jig disposed on the outer circumferential surface of the nipple and preventing the nipple from falling into the hole, wherein in the lifting assembly coupling process, the lifting lug is welded to the upper end of the nipple, and the supporting jig is the It may be welded to the outer peripheral surface of the nipple.

In the nipple insertion process, the supporting jig may be seated on an outer surface of the dome.

The lifting assembly may include: three supporting jigs disposed on the outer circumferential surface of the nipple and preventing the nipple from falling into the hole; three through-holes formed at the top of each of the three supporting jigs; a coupling ring to which the three supporting jigs are connected and the nipples are inserted into the coupling ring; and three lifting hooks hooked to each of the three through-holes, a triangular frame to which the three lifting hooks are fixed, and a triangular frame disposed on the triangular frame and connected to the triangular frame by a wire and the crane hook is applied. a lift frame including a lifting ring forming a hook hole; in the lifting assembly coupling process, the coupling ring is heated to expand in the circumferential direction, and the nipple is attached to the coupling ring to penetrate the heated coupling ring Inserted, the coupling ring may be cooled in a state penetrated by the nipple to be in close contact with the outer circumferential surface of the nipple.

After the dome cooling process is completed, the coupling ring is heated so that the inner circumferential diameter of the coupling ring is larger than the outer circumferential diameter of the nipple, and the coupling ring is heated by using a crane to lift the lifting assembly. It may further include; a lifting assembly separation process of separating the lifting assembly from the nipple.

According to the present invention, since the inner surface of the hole is in close contact with the outer surface of the nipple and the nipple is tightly fitted into the hole formed in the dome, it is possible to keep the gap between the nipple and the dome airtight.

According to the present invention, since the nipple is tightly fitted into the hole formed in the dome, the nipple and the dome can be firmly coupled without a separate welding process.

According to the present invention, since the lifting assembly can be coupled with the nipple by a fitting method rather than welding, it is possible to minimize traces and damage left on the nipple during coupling and separation.

1 is a view showing a storage tank according to an embodiment of the present invention.
2 is a flowchart illustrating a method for manufacturing a storage tank according to an embodiment of the present invention.
3 is a state diagram illustrating the hole expansion process shown in FIG. 2 .
FIG. 4 is a state diagram illustrating the horizontal measurement process shown in FIG. 2 .
5 is a state diagram illustrating the nipple lifting process shown in FIG. 2 .
6 is a state diagram illustrating the nipple insertion process shown in FIG. 2 .
7 is a view showing a lifting assembly according to another embodiment of the present invention.

The configuration shown in the embodiments and drawings described in this specification is only a preferred example of the disclosed invention, and there may be various modifications that can replace the embodiments and drawings of the present specification at the time of filing of the present application.

The same reference numbers or reference numerals in each drawing in this specification indicate parts or components that perform substantially the same functions. The shapes and sizes of elements in the drawings may be exaggerated for clear explanation.

The terminology used herein is used to describe the embodiments, and is not intended to limit and/or limit the disclosed invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as “comprise” or “have” are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, but one or more other features It does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

As used herein, terms including ordinal numbers such as “first”, “second”, etc. may be used to describe various components, but the components are not limited by the terms, and the terms are one It is used only for the purpose of distinguishing a component from other components. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. The term “and/or” includes any combination of a plurality of related listed items or any of a plurality of related listed items.

The terms "upper", "lower", "upper", "lower" and the like used below are defined based on the drawings, and the shape and position of each component is not limited by these terms.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a storage tank according to an embodiment of the present invention. 2 is a flowchart illustrating a method for manufacturing a storage tank according to an embodiment of the present invention. 3 is a state diagram illustrating the hole expansion process shown in FIG. 2 . FIG. 4 is a state diagram illustrating the horizontal measurement process shown in FIG. 2 . 5 is a state diagram illustrating the nipple lifting process shown in FIG. 2 . 6 is a state diagram illustrating the nipple insertion process shown in FIG. 2 .

1 to 6, the storage tank is formed with a hollow body (2) having a cylindrical shape at one end or both ends, and a dome connected to one end of the body (2) to cover one end of the body (2) (1) may be included. The dome 1 may be welded to one end of the body 2 by a welding machine, or may be coupled to one end of the body 2 by a fastening member (eg, a bolt and a nut, etc.). The body 2 and/or the dome 1 may be formed of a metal (eg, steel, soft iron, carbon steel, aluminum, etc.) material. The body 2 and/or the dome 1 may be formed of an alloy material composed of various metal elements. For example, the linear expansion coefficient of the body 2 and/or the dome 1 may be 10×10^(-6)/°C or more and 14×10^(-6)/°C. Preferably, the coefficient of linear expansion of the body 2 and/or the dome 1 may be 13.58×10^(-6)/°C.

The manufacturing method of the storage tank according to the present invention is a hole forming process (S1000), a hole expansion process (S2000), a horizontal measurement process (S3000), a lifting assembly combining process (S4000), a nipple lifting process (S5000), a nipple insertion process ( S6000), and a dome cooling process (S7000). However, the present invention is not limited thereto, and at least one of these processes may be omitted, and another process may be added between these processes. Meanwhile, in the following description, the word "nipple" may be replaced with "pipe".

The hole forming process ( S1000 ) may include forming a hole 10 in the dome 1 in a state in which the dome 1 forming the end of the tank is provided. The hole 10 may pass through the outer and inner surfaces of the dome 1 . The hole 10 may be formed by being cut by a cutting tool, or may be formed by a mold when the dome 1 is formed through casting.

The hole expansion process S2000 may include heating the dome 1 with the heater 20 to expand the hole 10 in a state where the hole forming process S1000 is completed. The heater 20 may correspond to an induction heater. The dome 1 heated by the heater 20 may correspond to the entire dome 1 , or may correspond to a portion of the dome 1 in which the hole 10 is formed and adjacent to the hole 10 . The dome 1 may be heated by the heater 20 to a temperature of 400° C. for 1 hour and 30 minutes. As the dome 1 is heated and expanded through the hole expansion process ( S2000 ), the size (or diameter) of the hole 10 may be expanded.

On the other hand, the storage tank manufacturing method may further include a temperature check process. The temperature check process may be disposed between the hole expansion process ( S2000 ) and the horizontal measurement process ( S3000 ). The temperature check process is located in the lower part of the hole 10 in the state where the dome 1 is placed so that the lower light is in a state of lower light, and the first point located 150 mm above the lower edge of the dome 1. It may include measuring the temperature and measuring the temperature of the second point located on the periphery of the hole 10 . When the temperature of the first point and the second point is 400° C., the next process (eg, a horizontal measurement process (S3000)) may be performed.

In the horizontal measurement process (S3000), the dome 1 on which the hole expansion process (S2000) is completed is placed on the ground so that the hole 10 is opened upward by using the frame 30, and the hole is placed on the upper part of the hole 10. It may include the step of arranging the horizontal ruler (3) to pass through the center of (10) to level. Specifically, in the horizontal measurement process (S3000), the dome 1 on which the hole 10 is formed is placed on the ground so that the hole 10 is opened upward by using the mounting frame 30, and the A step of arranging the horizontal ruler 3 on the top of the hole 10 in the first direction L1 corresponding to the direction in which the circumferential tangent line of the dome 1 passing through the center extends and leveling the hole 10; It may include the step of arranging the horizontal ruler 3 on the upper portion of the hole 10 in the second direction L2 that passes through the center of the first direction L1 and is orthogonal to the first direction (L1).

In this way, the inclination in the circumferential direction of the dome 1 and the direction perpendicular to the circumference of the dome 1 by leveling once in the first direction (L1) and leveling once more in the second direction (L2). Since it is possible to prevent all inclination of the dome 1, the dome 1 can be disposed on the ground so that the hole 10 formed in the dome 1 having a curved surface is opened vertically upwardly.

The lifting assembly coupling process (S4000) may include providing a nipple 100 that is coupled to the dome 1 by being coupled to the hole 10, and coupling the lifting assembly 200 to the nipple 100. have.

The lifting assembly 200 is disposed on the upper end of the nipple 100 and the lifting lug 210 in which the hook hole 230 to which the crane hook 40 is hung is formed, and the nipple 100 is disposed on the outer circumferential surface and the hole ( 10) may include a supporting jig 220 that limits the length of a portion of the nipple 100 to be interpolated and prevents the nipple 100 from falling into the hole 10 . The supporting jig 220 may include a plurality of (eg, three) supporting jigs 220 . The supporting jig 220 may be disposed so that the lower end of the supporting jig 220 is spaced upwardly from the lower end of the nipple 100 . A portion of the nipple 100 positioned between the lower end of the supporting jig 220 and the lower end of the nipple 100 may be inserted into the hole 10 through the nipple insertion process (S6000).

In the step of coupling the lifting assembly 200 to the nipple 100 , the lifting lug 210 may be welded to the top (or upper surface) of the nipple 100 , and the supporting jig 220 is the outer circumferential surface of the nipple 100 . can be welded to The operation of welding the lifting lug 210 and the supporting jig 220 to the nipple 100 may be performed by arc welding or gas welding, but is not limited thereto, and may be performed by various welding techniques.

The nipple lifting process ( S5000 ) may include lifting the nipple 100 in a state where the lifting assembly coupling process ( S4000 ) is completed to the upper part of the hole 10 using a crane. The hook 40 of the crane may be hook-coupled to the hook hole 230 of the lifting lug 210 . The nipple 100 lifted by the crane may be positioned vertically above the hole 10 .

The nipple insertion process (S6000) is to insert the lower end of the nipple 100 into the hole 10 by lowering the nipple 100 using a crane until the lifting assembly 200 is seated on the outer surface of the dome 1 may include steps. When the lower end of the nipple 100 is inserted into the hole 10 , the lower end of the supporting jig 220 may be seated on the outer circumferential surface of the dome 1 . The supporting jig 220 may limit the range in which the nipple 100 moves downward in the hole 10 .

The dome cooling process (S7000) is a step of cooling the dome (1) in a state in which the nipple insertion process (S6000) is completed so that the hole 10 is contracted and adhered to the outer peripheral surface of the lower end of the nipple 100 inserted into the hole 10 may include. At this time, the dome 1 may be cooled naturally or may be cooled by a cooler provided separately. Through the dome cooling process (S7000), the dome 1 may be cooled to a temperature of 60° C. or less. In the dome cooling process (S7000), the supporting jig 220 may prevent the nipple 10 from falling into the hole 10 until the nipple 100 is completely fitted into the hole 10 .

When the dome cooling process (S7000) is completed, the nipple 100 may be coupled to the dome 1 by being fitted with one end of the nipple 100 into the hole 10 .

The storage tank manufacturing method may further include a lifting assembly removal process (S8000) of removing the lifting assembly 200 from the nipple 100 after the dome cooling process (S7000) is completed. The lifting assembly removal process (S8000) may include cutting the welded portion between the lifting assembly 200 (eg, the lifting lug 210 and the supporting jig 220) and the nipple 100 using a plasma cutter. have.

Meanwhile, the storage tank manufacturing method may further include a nipple welding process of welding the nipple 100 fitted to the hole 10 to the dome 1 through the dome cooling process S7000 . The nipple welding process may be performed after the lifting assembly removal process ( S8000 ) is completed. The nipple welding process may include welding between the periphery of the hole 10 and the outer peripheral surface of the nipple 100 with a welding machine. Through the nipple welding process, the nipple 100 can be stronger and permanently fixed to the dome 1 . However, the nipple welding process may be omitted.

7 is a view showing a lifting assembly according to another embodiment of the present invention. The contents described with reference to FIGS. 1 to 6 may also be applied to the lifting assembly shown in FIG. 7 and a method of manufacturing a storage tank using the same as long as it does not conflict with the contents to be described later.

Referring to FIG. 7 , the lifting assembly 200 - 1 may include a supporting jig 220 , a through hole 221 , a coupling ring 250 , and a lift frame 240 . In the storage tank manufacturing method, the lifting assembly 200 - 1 shown in FIG. 7 may replace the lifting assembly 200 shown in FIGS. 1 to 6 .

When manufacturing a storage tank using the lifting assembly 200-1 shown in FIG. 7, compared to the case of manufacturing the storage tank using the lifting assembly 200 shown in FIGS. 1 to 6, the lifting assembly combining process ( S4000) and only the lifting assembly removal process (S8000) is different, the rest of the process may be the same or similar.

The supporting jig 220 may be disposed on the outer circumferential surface of the nipple 100 . The supporting jig 220 may limit the length of a portion of the nipple 100 interpolated into the hole 10 and prevent the nipple 100 from falling into the hole 10 . The lower end of the supporting jig 220 may be spaced upwardly from the lower end of the nipple 100 . The supporting jig 220 may include a plurality of (eg, three) supporting jigs 220 . The three supporting jigs 220 may be fixed at positions dividing the outer circumferential surface of the coupling ring 250 into thirds on the outer circumferential surface of the coupling ring 250 . A description of the function and role of the supporting jig 220 is the same as described above with reference to FIGS. 1 to 6 , and thus will be omitted.

The through hole 221 may be formed at an upper end of the supporting jig 220 . The through-holes 221 may include a plurality (eg, three) of the through-holes 221 . Each of the plurality of through holes 221 may be formed in each of the plurality of supporting jigs 220 .

The coupling ring 250 may be connected to a plurality of supporting jigs 220 . Each of the plurality of supporting jigs 220 may be fixed to the outer peripheral surface of the coupling ring 250 . In other words, the plurality of supporting jigs 220 may be connected by a coupling ring 250 . The coupling ring 250 may be penetrated by the nipple 100 . The nipple 100 may be inserted into the coupling ring 250 . The coupling ring 250 may include a plurality of coupling rings 251,252.

The coupling ring 250 and the supporting jig 220 may be integrally formed. The coupling ring 250 and/or the supporting jig 220 may be formed of a metal (eg, steel, soft iron, carbon steel, aluminum, etc.) material. The coupling ring 250 and/or the supporting jig 220 may be formed of an alloy material composed of various metal elements.

The coupling ring 250 may expand in the circumferential direction when heated. In other words, the coupling ring 250 may expand when heated to increase the diameter of the coupling ring 250 . For example, the first coupling ring 251 expands when heated and may have a larger diameter than the first cylindrical portion 101 , and the second coupling ring 252 expands when heated and is larger than the second cylindrical portion 102 . diameter can be increased.

The lift frame 240 includes a plurality of (eg, three) lifting hooks 241 hooked to the through-holes 221 corresponding to the plurality of through-holes 221, respectively, and the plurality of lifting hooks 241 are fixed. and a triangular frame 242 having an equilateral triangular shape when viewed from above, and a hook hole 230 disposed on the triangular frame 242 and connected to the triangular frame 242 by a wire and through which the crane hook 40 is caught. It may include a lifting ring 243 to form. The plurality of lifting hooks 241 may be fixed to the vertex portions of the triangular frame 242 . When viewed from above, the lifting ring 243 may be located at the center of gravity of the triangular frame 242 . In other words, the lifting ring 243 may be located vertically above the center of gravity of the triangular frame 242 .

The lifting assembly coupling process (S4000) includes heating the coupling ring 250 to expand in the circumferential direction, and connecting the nipple 100 to the coupling ring 250 so that the nipple 100 passes through the heated coupling ring 250. It may include the step of inserting, and cooling the coupling ring 250 in a state in which the coupling ring 250 is penetrated by the nipple 100 to bring the coupling ring 250 into close contact with the outer circumferential surface of the nipple 100 . .

On the other hand, the nipple 100 is located on the first cylindrical portion 101 and the first cylindrical portion 101 forming one end (eg, the lower end) of the nipple 100, the other end of the nipple (eg, the upper end) ) to form and connect the second cylindrical portion 102 and the first cylindrical portion 101 and the second cylindrical portion 102 having a smaller diameter than the first cylindrical portion 101, ) may include a nozzle unit 103 having a shape. The lifting jig 220 corresponds to the outer circumferential surface of the first cylindrical portion 101, forms the lower end of the lifting jig 220, extends in the vertical direction, and the lower end of the supporting portion 220a is seated on the outer surface of the dome 1) And, a stepped portion 220b connected to the upper portion of the supporting portion 220a and corresponding to the outer peripheral surface of the nozzle portion 103 and the outer peripheral surface of the second cylindrical portion 102, and horizontally extending from the upper end of the stepped portion 220b and being seated on the upper surface of the nipple 100, thereby limiting the range of relative movement of the lifting assembly 200-1 (eg, the coupling ring 250 and the supporting jig 220) with respect to the nipple 100, and the nipple 100 ) on the outer circumferential surface of the lifting assembly 200-1 (eg, the supporting jig 220) may include a stopper portion 220c for matching the position. The coupling ring 250 may include a first coupling ring 251 and a second coupling ring 252 , and the first coupling ring 251 is a plurality of supporting jigs 220 , respectively. may be connected, and the second coupling ring 252 may be disposed on the first coupling ring 251 and connected to the stepped portion 220b of each of the plurality of supporting jigs 220 . However, the present invention is not limited thereto, and the lifting assembly 200 - 1 may include only one of the first coupling ring 251 and the second coupling ring 252 .

When the nipple 100 is inserted into the coupling ring 250 so that the nipple 100 passes through the heated coupling ring 250, the lifting assembly 200-1 (eg, coupling ring 250) is As it moves vertically downward from the upper end of the nipple 100 in a state seated on the ground, it may be penetrated by the nipple 100, and the stopper portion 220c is seated on the upper surface of the nipple 100, whereby the stopper portion 220c ) may further limit the downward movement of the lifting assembly 200-1 (eg, coupling ring 250), in this case, the first coupling ring 251 is on the outer peripheral surface of the first cylindrical portion (101) may be disposed, the second coupling ring 252 may be disposed on the outer peripheral surface of the second cylindrical portion (102).

Through the lifting assembly coupling process (S4000), the nipple 100 may be fitted to the inside of the coupling ring 251,252 and the supporting jig 220 may be placed in a fixed position on the outer circumferential surface of the nipple 100. In addition, the lower end of the supporting jig 220 having a shape extending in the vertical direction is fixed to the first coupling ring 251 and the upper end is fixed to the second coupling ring 252, so that the coupling ring 251,252 is a nipple ( In the step of cooling the coupling ring 251,252 in the state penetrated by 100) to bring the coupling ring 251,252 into close contact with the outer circumferential surface of the nipple 100, the supporting jigs 220 are fixed to one coupling ring 250 It can be minimized that the supporting jig 220 is misplaced with respect to the vertical direction than the case, and the supporting jig 220 can be accurately positioned on the outer circumferential surface of the nipple 100 .

The hook 40 of the crane may be hook-coupled to the hook hole 230 formed by the lifting ring 243 . Thereafter, a nipple lifting process (S5000), a nipple insertion process (S6000), and a dome cooling process (S7000) may be performed.

The lifting assembly removal process (S8000) is a step of heating the coupling ring 250 so that the inner periphery diameter of the coupling ring 250 is larger than the outer circumferential diameter of the nipple 100, and the crane in a state where the coupling ring 250 is heated. It may include separating the lifting assembly 200-1 from the nipple 100 by lifting the lifting assembly 200-1 using it. When the step of heating the coupling ring 250 so that the inner peripheral diameter of the coupling ring 250 is larger than the outer circumferential diameter of the nipple 100, the first coupling ring 251 expands than the first cylindrical part 101 The diameter may be increased, and the second coupling ring 252 may expand to have a larger diameter than the second cylindrical portion 102 .

In this way, since the lifting assembly 200-1 can be coupled to or separated from the nipple 100 by using the expansion and contraction according to the temperature of the coupling ring 250, multiple times of the lifting assembly 200-1 ) can be used, and the traces and damage left on the nipple can be minimized compared to the case of welding the lifting assembly to the nipple using a welding machine and cutting and separating the lifting assembly from the nipple using a cutter.

In the above, specific embodiments have been shown and described. However, it is not limited to the above embodiments, and those of ordinary skill in the art to which the invention pertains can make various changes without departing from the spirit of the invention described in the claims below. .

One; dome
2; body
100; nipple
200, 200-1; lifting assembly

Claims (5)

a hole forming process of forming a hole in a dome forming an end of the tank;
a hole expansion process of expanding the hole by heating the dome with an induction heater in a state in which the hole forming process is completed;
a horizontal measurement process of arranging the dome on which the hole expansion process is completed so that the hole is opened upward using a frame, and arranging a horizontal ruler on the top of the hole to pass the center of the hole;
a lifting assembly coupling process of coupling the lifting assembly to the nipple corresponding to the hole;
a nipple lifting process of lifting the nipple, on which the lifting assembly coupling process is completed, to the upper part of the hole using a crane;
a nipple insertion process of inserting the lower end of the nipple into the hole until the lower end of the lifting assembly is seated on the outer surface of the dome; and
a dome cooling process of cooling the dome so that the hole is contracted to be in close contact with the outer peripheral surface of the lower end of the nipple in a state where the nipple insertion process is completed;
The lifting assembly is
a lifting lug disposed on the upper end of the nipple and having a hook hole through which a hook of the crane is caught; and
a supporting jig disposed on the outer circumferential surface of the nipple and preventing the nipple from falling into the hole; and
In the lifting assembly joining process
The lifting lug is welded to the upper end of the nipple, and the supporting jig is welded to the outer circumferential surface of the nipple,
In the nipple insertion process
The supporting jig is a storage tank manufacturing method that is seated on the outer surface of the dome.




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