JP6284270B2 - Liquefied gas tank - Google Patents

Description

  The present invention relates to a liquefied gas tank, and more particularly to a liquefied gas tank provided with a well that forms a liquid pool at the bottom.

  A liquefied gas tank that stores liquefied gas such as LNG (liquefied natural gas), LPG (liquefied petroleum gas), etc., for example, as described in Patent Document 1, a tank main body disposed on the bottom of an LNG ship, and a tank top portion A tank dome, a discharge pipe inserted from the tank dome into the tank, a pump arranged at the tip of the discharge pipe, and a suction well formed at the bottom of the tank. The suction well is a recess or depression formed in the bottom of the tank, and forms a liquid pool when the liquefied gas is discharged. By disposing the suction port of the pump in the suction well, the amount of liquefied gas remaining in the tank can be reduced.

JP 2003-321089 A

  By the way, in view of the fact that liquefied gas is easy to vaporize and explode, and that cooling and pressurization are necessary to keep the liquefied gas in the liquid phase, liquefied gas tanks containing liquefied gas such as LNG are difficult. Strength design is required. For example, from the viewpoint of weld quality, strength, and nondestructive inspection, the use of fillet welds on the outer periphery of the tank is not recognized in principle, and butt welding must be relied upon.

  The above-described suction well (hereinafter referred to as “well”) protrudes downward from the bottom of the tank and corresponds to the outer periphery of the tank. Therefore, fillet welding cannot be used and must be formed by butt welding. Don't be. Moreover, the opening of the well often has an oval shape composed of a straight portion and a semicircular portion. Therefore, in order to process all joints by butt welding, a well is formed using an S-shaped curved plate having a substantially S-shaped cross section.

  However, molding and assembling the S-shaped curved plate has a problem of requiring a great deal of time and cost. In particular, it was very difficult to curve the S-shaped curved plate in accordance with the semicircular portion of the well.

  The present invention has been devised in view of the above-described problems, and an object thereof is to provide a liquefied gas tank capable of easily producing a well.

  According to the present invention, in a liquefied gas tank provided with a well for forming a liquid reservoir at the bottom, an opening having a curved portion formed at the bottom, a single curved web forming a curved surface, an upper end of the curved web, A shape of the opening formed by combining a plurality of the curved shape members, and a curved shape formed by a pair of curved flanges disposed along the lower end; and a bottom plate forming the bottom of the well. A circular body is formed by butt-welding so as to coincide with the base plate, the bottom plate is butt-welded to the inner edge of the curved flange constituting the lower end of the annular body, and the outer edge of the curved flange constituting the upper end of the annular body There is provided a liquefied gas tank characterized by being butt welded to the inner edge of the opening.

  It has a linear shape member composed of a single flat web forming a flat surface and a pair of straight flanges arranged along the upper and lower ends of the flat web, and the opening is a straight portion and the curved portion. The annular body may be formed by the linear shape member and the curved shape member.

  Moreover, you may form a notch in the inner edge of the said linear flange or the said curved flange which comprises the upper end of the said annular body. Moreover, you may cut all the inner edge parts of the said linear flange and the said curve flange which comprise the upper end of the said annular body, and the outer edge part of the said linear flange and the said curve flange which comprise the lower end of the said annular body. The liquefied gas tank may be a tank mounted on a hull.

  According to the above-described liquefied gas tank according to the present invention, an opening formed at the bottom of the liquefied gas tank using a shape member having a single web and a pair of flanges, that is, an H-shape or an I-shape. By forming an annular body adapted to the above, butting and welding the upper end of the annular body to the opening, and butting and welding the bottom plate to the lower end of the annular body, a well that is a recess formed in the bottom can be formed. According to such a configuration, it is only necessary to curve the shape according to the curved portion of the opening, so that the curved shape can be easily formed and the well can be easily manufactured.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows the liquefied gas tank which concerns on embodiment of this invention, (A) is a side view, (B) has shown the top view of the well vicinity. It is a component development view showing the structure of a well. The longitudinal direction longitudinal cross-sectional view of a well is shown, (A) shows this embodiment, (B) has shown the prior art. It is a figure which shows the modification of a well, (A) has shown the 1st modification, (B) has shown the 2nd modification, (C) has shown the 3rd modification. It is a figure which shows the modification of a well, (A) has shown the 4th modification, (B) has shown the 5th modification.

  Hereinafter, a liquefied gas tank according to an embodiment of the present invention will be described in detail with reference to FIGS. Here, FIG. 1 is an overall configuration diagram showing a liquefied gas tank according to an embodiment of the present invention, wherein (A) shows a side view and (B) shows a top view in the vicinity of a well. FIG. 2 is a part development view showing the structure of the well. 3A and 3B are longitudinal sectional views in the longitudinal direction of the well. FIG. 3A shows the present embodiment, and FIG. 3B shows the prior art.

  As shown in FIGS. 1 and 2, the liquefied gas tank 1 according to the embodiment of the present invention includes a well 2 that forms a liquid pool at the bottom 11, and is formed on the bottom 11 from a straight portion 12a and a curved portion 12b. A linear shape member 21 composed of a configured opening 12, a single flat web 21a forming a flat surface, and a pair of straight flanges 21b disposed along the upper and lower ends of the flat web 21a, and a curved surface A curved shape member 22 composed of a curved web 22a that forms a pair of curved flanges 22b disposed along the upper and lower ends of the curved web 22a, and a bottom plate 23 that forms the bottom of the well 2. The annular body 24 is formed by combining a plurality of the linear shape member 21 and the curved shape member 22 so as to match the shape of the opening 12, thereby forming the lower end of the annular member 24. Butt welding the bottom plate 23 to the inner edge of the line flanges 21b and curved flange 22b, it is obtained by butt welding the outer edges of straight flanges 21b and curved flange 22b constituting the upper end of the annular body 24 to the inner edge of the opening 12.

  The liquefied gas tank 1 shown in FIG. 1A is a self-supporting prismatic shape IMO type B (SPB) mounted on a hull 13 of a liquefied gas carrier such as an LNG ship. The liquefied gas tank 1 is arranged on a support base 15 independently of the hull 13 in a hold 14 formed in the hull 13. The liquefied gas tank 1 is not limited to the tank shown in the figure, but can be any type of tank including a type A self-supporting square tank, a membrane system, an independent spherical system, an independent cylindrical system, and the like. May be.

  The liquefied gas tank 1 includes a tank body 1a disposed on the bottom of the hull 13, a tank dome 1b disposed on the top of the tank, a discharge pipe 1c inserted from the tank dome 1b into the tank, and a discharge pipe 1c. The pump 1d is disposed at the tip, and the suction port of the pump 1d is disposed inside the well 2 which is a recess formed in the tank bottom (bottom 11). Although only the discharge pipe 1c is shown here, a plurality of pipes such as a liquid supply pipe are actually inserted from the tank dome 1b into the tank body 1a.

  The well 2 is usually disposed directly below the tank dome 1b. The well 2 is formed by welding a box-shaped structure to the opening 12 formed in the bottom 11 of the liquefied gas tank 1, as shown in FIGS. 1 (A) and (B) or FIG. The opening 12 is often formed in an oval shape in consideration of stress concentration and the like. Therefore, the opening 12 is formed by a pair of straight portions 12a and semicircular curved portions 12b connected to both ends thereof. However, the opening 12 is not limited to the long round shape.

  The box-shaped structure constituting the well 2 is assembled by a linear shape member 21, a curved shape member 22, and a bottom plate 23, as shown in FIG. The linear shape member 21 is a shape member such as a so-called I shape, H shape, or Z shape, and a pair of straight flanges disposed along the upper and lower ends of one flat web 21a and the flat web 21a. 21b. The straight flange 21b projects at least on one surface side (outside of the annular body 24) of the upper end of the planar web 21a, and projects on the other surface side (inward side of the annular body 24) of the lower end of the planar web 21a. It is necessary to be. When the linear shape member 21 is I-shaped or H-shaped, it is not necessary to consider the arrangement of the straight flange 21b. However, when the straight shape member 21 is a Z-shaped member. Therefore, it is necessary to pay attention to the protruding direction of the straight flange 21b.

  The curved shape member 22 is formed by bending a shape such as a so-called I-shape, H-shape, or Z-shape into a semicircular shape along the upper and lower ends of one curved web 22a and curved web 22a. And a pair of curved flanges 22b. The curved flange 22b is obtained by curving the longitudinal center line of the flange in a semicircular shape, and is referred to as a curved flange 22b in order to distinguish it from the straight flange 21b in which the center line is straight. The curved profile 22 preferably has the same cross-sectional shape as the linear profile 21 because both ends are butt welded to the linear profile 21.

  The shape of the linear shape material 21 and the curved shape material 22 is, for example, an aluminum material when the accommodation is LNG (liquefied natural gas), and the accommodation is LPG (liquefied petroleum gas). In such a case, a low-temperature steel material or an aluminum material is used.

  For example, as shown in FIG. 1B and FIG. 2, when an oval annular body 24 is assembled with two pairs of linear shapes 21 and a pair of curved shapes 22, Since the end faces are in a state of abutting each other, the butt welding can be easily performed, and the annular body 24 can be easily formed. The number of the linear shape members 21 can be arbitrarily selected according to the size of the opening 12. Moreover, as long as it can be made to respond | correspond to the linear part 12a, the length of the linear shape member 21 may be uneven.

  As shown in FIGS. 1B and 2, the bottom plate 23 of the well 2 has a substantially round opening formed by the inner edges of the linear flange 21b and the curved flange 22b that constitute the lower end of the annular body 24. It has a matching shape and is butt welded to the inner edges of the linear flange 21b and the curved flange 22b constituting the annular body 24. With this configuration, the annular body 24 and the bottom plate 23 can easily form the structure forming the concave portion of the well 2 only by butt welding.

  Incidentally, the well 2 'in the prior art has, for example, a substantially S-shaped cross section as shown in FIG. 3B in order to join the inner edge of the opening and the outer edge of the bottom plate 23' by butt welding. An S-curved plate 22 'was used. The S-shaped curved plate 22 'is formed by a single plate material, or as shown in the figure, a curved plate material is butt-welded and formed, but in any case, compared with the I-shaped material or H-shaped material. Thus, the production of the S-shaped curved plate 22 'requires time and cost. In particular, the S-shaped curved plate 22 ′ corresponding to the curved shape member 22 has to bend the curved plate material into a semicircular shape, which is very difficult to manufacture. In addition, the black circle in a figure means the welding part by butt welding.

  On the other hand, in the present embodiment, as shown in FIG. 3A, an easily manufactured I-shaped material or H-shaped material can be used. Since the material only needs to be curved in accordance with the curved portion 12b of the opening 12, it can be easily formed, the well 2 can be easily manufactured, and time and cost can be reduced.

  As described above, the box-shaped structure constituted by the linear shape member 21, the curved shape member 22 and the bottom plate 23 is finally fitted into the opening 12 of the bottom portion 11, and the upper end of the annular body 24 is formed. The outer edges of the straight flange 21b and the curved flange 22b to be formed and the inner edge of the opening 12 are butt welded to form the well 2.

  Next, a modified example of the well 2 will be described with reference to FIG. Here, FIG. 4 is a diagram showing a modified example of the well, in which (A) shows a first modified example, (B) shows a second modified example, and (C) shows a third modified example. FIG. 5 is a diagram showing a modified example of the well, in which (A) shows a fourth modified example and (B) shows a fifth modified example. In addition, about the same component as embodiment mentioned above, the same code | symbol is attached | subjected and the overlapping description is abbreviate | omitted.

  In the first modification shown in FIG. 4A, the curved shape member 22 is bent into a quadrant shape. Even when such a curved shape member 22 is used, the semicircular curved shape member 22 shown in FIG. 2 can be formed by butt welding them. Here, although the case where the semicircular curved shape member 22 is equally divided into two parts has been described, it may be divided into three or more parts, or may be divided unevenly.

  In the second modification shown in FIG. 4B, the bottom plate 23 is formed of a plurality of plate materials. For example, as shown in the figure, the bottom plate 23 may be formed by combining a rectangular plate member 23a and a semicircular plate member 23b and performing butt welding. As described above, by dividing the bottom plate 23 into a plurality of pieces, the bottom plate 23 can be easily transported, and distortion due to welding can be easily reduced.

  In the third modified example shown in FIG. 4C, the well 2 is formed by only the curved shape member 22. When the opening 12 has a circular shape or an elliptical shape, the well 2 can be formed only by the curved shape member 22 without using the linear shape member 21.

  In the fourth modified example shown in FIG. 5A, a notch 25 is formed in a linear flange 21 b that constitutes the upper end of the annular body 24. Here, for convenience of explanation, the illustration of the straight flange 21b constituting the lower end is omitted. Since the inner edge of the upper end of the annular body 24 protrudes to the inside of the well 2, for example, when the reinforcing material of the well 2 is arranged or when piping is arranged, the straight flange 21b and the curved flange 22b are obstructive. Sometimes. In such a case, the cutout portion 25 may be formed by cutting out a part of the linear flange 21b or the curved flange 22b projecting inward.

  In the fifth modification shown in FIG. 5B, the linear flange 21b and the inner edge of the curved flange 22b (the portion c surrounded by the dotted line in the figure) constituting the upper end of the annular body 24 and the lower end of the annular body 24 are constructed. The outer edge part (c part enclosed with the dotted line of the figure) of the straight flange 21b and the curved flange 22b to be cut is cut. Here, since the cross-sectional view is shown, only the curved flange 22b is shown in the drawing, but the upper end inner edge portion and the lower end outer edge portion of the linear flange 21b continuous with the c portion are also cut. Yes. With this configuration, unnecessary protrusions can be eliminated, and the well 2 having a shape similar to the well 2 'in the prior art shown in FIG. 3B can be easily formed.

  In the embodiment and the modification described above, the method of dividing the linear shape member 21 and the curved shape member 22 can be arbitrarily selected according to the shape of the well 2. For example, the straight portion of the well 2 is short. In such a case, the curved shape member 22 may be formed in a shape including a linear shape in part, such as a J shape.

  The present invention is not limited to the above-described embodiment, and the liquefied gas tank 1 may be arranged on a floating structure other than a ship or on land, the liquefied gas tank 1 may be a fuel tank, etc. It goes without saying that various modifications can be made without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Liquefied gas tank 1a Tank main body 1b Tank dome 1c Discharge pipe 1d Pump 2 Well 11 Bottom part 12 Opening part 12a Straight line part 12b Curved part 13 Hull 14 Ship hold 15 Support base 21 Straight shape member 21a Plane web 21b Straight flange 22 Curved shape member 22a Curved web 22b Curved flange 23 Bottom plate 23a, 23b Plate material (bottom plate)
24 annular body 25 notch

Claims (5)

In a liquefied gas tank with a well that forms a liquid pool at the bottom,
An opening formed at the bottom and having a curved portion;
A curved profile comprising a single curved web forming a curved surface and a pair of curved flanges disposed along the upper and lower ends of the curved web;
A bottom plate forming the bottom of the well,
A plurality of the curved shapes are combined and butt welded so as to match the shape of the opening to form an annular body, and the bottom plate is butt welded to the inner edge of the curved flange constituting the lower end of the annular body, The outer edge of the curved flange constituting the upper end of the annular body is butt welded to the inner edge of the opening,
A liquefied gas tank characterized by that.   It has a linear shape member composed of a single flat web forming a flat surface and a pair of straight flanges arranged along the upper and lower ends of the flat web, and the opening is a straight portion and the curved portion. 2. The liquefied gas tank according to claim 1, wherein the annular body is formed by the linear shape member and the curved shape member.   The liquefied gas tank according to claim 2, wherein a cutout portion is formed at an inner edge of the linear flange or the curved flange that constitutes the upper end of the annular body.   The inner edge of the linear flange and the curved flange constituting the upper end of the annular body and the outer edge of the linear flange and the curved flange constituting the lower end of the annular body are cut. The liquefied gas tank according to 2. The liquefied gas tank according to any one of claims 1 to 4, wherein the liquefied gas tank is a tank mounted on a hull.