KR100840032B1 - Multi-axis extended spherical tank - Google Patents

Abstract

A multi-axis extended spherical tank is provided to increase efficiency for utilizing space by reducing a dead space inside a carrier. A multi-axis extended spherical tank(10) includes blocks(20), a connection member(30), and a supporting skirt(40). The blocks adhered to one another to form the spherical tank having a gap from one another. The connection member is installed between the blocks, increases internal volume of the spherical tank, and forms the blocks in one body with one another for increasing storage capacity of the spherical tank. The supporting skirt is installed on the connection member and fixes the spherical tank in a carrier.

Description

Multi-axis Extended Spherical Tank

1 is an exemplary view showing a multi-axis extended spherical tank according to an embodiment of the present invention,

2 is a cross-sectional view of a multi-axis extended spherical tank according to an embodiment of the present invention,

Figure 3 is a perspective view showing a modified embodiment of the multi-axis extended spherical tank of the present invention,

4 is a cross-sectional view showing a modified embodiment of the multi-axis extended spherical tank of the present invention,

5 is a front view showing a modified embodiment of the multi-axis extended spherical tank of the present invention,

6 is an exemplary view showing a multi-axis extended spherical tank according to another embodiment of the present invention,

7 is an exemplary view showing an extension comparison of the multi-axis extension spherical tank of the present invention,

8 is an exemplary view showing an arrangement of a multi-axis extended spherical tank and a conventional spherical tank of the present invention,

9 is an exemplary view showing a state in which a reinforcement is further installed for optimizing the structural strength of the extension in the multi-axis extended spherical tank of the present invention.

<Description of the symbols for the main parts of the drawings>

(10): multi-axis extension spherical tank 20: block

(30): connecting member 31: flat type connecting member

(32): arc-shaped connecting member (40): support skirt

50: Dead Space 60: Reinforcement

The present invention relates to a multi-axis extended spherical tank, and more specifically, to expand the existing spherical tank in the x, y, z-axis direction to increase the internal volume of the tank in the same space to increase the storage capacity of LNG, By reducing dead space inside the ship, the space utilization efficiency of the ship can be increased, and the capacity of the loaded LNG can be flexibly increased in the width of the same ship, and reinforcement is provided inside to optimize the structural strength of the extension. It is to provide a multi-axis extended spherical tank that reinforces the strength and reduces the sloshing pressure due to the fluid flow of the load.

In general, older LNG storage tanks mounted on LNG carriers should be designed to allow the loading of more LNG within a range that does not interfere with the ship's view.

Conventional spherical LNG storage tank is a cylindrical connection tank that is installed between the semi-spherical upper tank and lower tank, and the upper tank and lower tank portion to increase the height of the LNG storage tank to increase the LNG storage capacity. One end is coupled to the portion and the connecting tank portion and the other end is configured to include a support skirt for fixing the old LNG storage tank to the vessel by fixing to the vessel.

The conventional spherical LNG storage tank as described above has a problem of increasing the storage capacity of the LNG filled therein because it can be extended in the height direction only so as not to interfere with the steering line of the ship.

In addition, when expanding the old LNG storage tank only in one direction, that is, the height direction in order to increase the LNG storage capacity as described above, a stress concentration phenomenon occurs in the connection portion between the connection tank portion and the upper and lower tank portion, the old LNG There is a problem that the safety of the storage tank is lowered.

In addition, when the upper tank portion and the lower tank portion is completely spherical, there is a problem that the storage capacity for storing LNG in the same space is reduced, there is a problem that obstructs the gaze when extended only in the height direction.

In addition, a large size dead space is generated in the space between the support skirt and the lower tank portion, and there is a problem in that the space of the ship cannot be efficiently used.

The present invention is created to solve the above conventional problems, by extending the old LNG storage tank in the x-axis, y-axis, z-axis direction so that the LNG storage capacity is increased in the same space, and the stress of the connection portion It is possible to reduce as much as possible, and to provide a multi-axially extending spherical tank having a reinforcing material therein for optimizing the structural strength of the extension to reinforce the strength and to reduce the sloshing pressure due to the fluid flow of the cargo.

The present invention for achieving the above object is a block formed by dividing the spherical LNG storage tank in the three-dimensional shape of the LNG storage tank having a x, y, z axis and separated from each other along the x, y, z axis direction. ; A connection member installed between the spaced blocks to integrate the blocks to increase the LNG storage capacity of the old LNG storage tank; One side end is connected to the connecting member and the other end is connected to the ship for supporting the LNG storage tank; Characterized in that comprises a.

The connecting member includes a plate type connecting member for connecting the vertex portion of the spaced blocks; A plurality of arc-shaped connection members connected to upper and lower ends of the plate-type connection members, respectively, and both side ends of which are connected to side portions of the blocks to connect adjacent blocks; Characterized in that consisting of.

In addition, the radius of the arc-shaped connecting member is characterized in that the same configuration as the radius of the divided blocks.

In addition, the tangential formed when the arc-shaped connection member and the plate-shaped connection member is coupled is characterized in that it is maintained to match each other.

In addition, the support skirt is characterized in that it is installed in the flat plate-like connection member and the arc-shaped connection member located in the z-axis direction of the connection member.

On the other hand, the present invention is installed along the inner circumference of the space formed by the plurality of blocks and connecting members for optimizing the structural strength of the extension to further reinforce the structural strength and reduce the sloshing pressure of the fluid further Characterized in that it comprises a.

In addition, the reinforcing material is characterized in that formed on part or all of the x, y, z axis.

In addition, the reinforcement is characterized in that formed when the two or more of the x, y, z axis to cross each other.

In addition, the reinforcing member is characterized in that the cross-sectional shape is formed in the shape of 'T' or 'L' or Flat Bar.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view showing a multi-axis extended spherical tank according to an embodiment of the present invention, Figure 2 is a cross-sectional view of a multi-axis extended spherical tank according to an embodiment of the present invention, Figure 3 is a modification of the multi-axis extended spherical tank of the present invention 4 is a cross-sectional view showing a modified embodiment of the multi-axis extended spherical tank of the present invention, Figure 5 is a front view showing a modified embodiment of the multi-axis extended spherical tank of the present invention,

The multi-axis extended spherical tank 10 of the present invention, as shown in the figure is formed by dividing all or part of the spherical tank in the x, y, z-axis direction and a plurality of blocks 20 spaced at predetermined intervals, and Installed between the spaced block 20 is to increase the internal volume of the spherical tank and to integrate the block 20 to expand the LNG storage capacity by the connection member 30, and installed in the connection member 30 It is configured to include a support skirt 40 for fixing the LNG storage tank to the ship.

The connecting member 30 has six flat connection members 31 connecting the vertices of the blocks 20 spaced as described above, and both top and bottom ends thereof are respectively connected to the flat connection member 31, and both side ends. Is composed of twelve arc-shaped connecting members 32 connected to the side portions of the blocks 20 to connect adjacent blocks 20.

The connecting member 30 is composed of an arc connecting member 32 and a flat connection member 31, the radius R of the arc connecting member 32 is the same as the radius R of the divided blocks 20 arc connection Since the members 32 and the blocks 20 can be processed in one equal radius sheet bending forming equipment, productivity is greatly increased. In addition, the pressure head according to the existing uniaxial extension is smaller due to the multi-axis extension, so that the large spherical tank can be designed with a relatively small thickness.

In addition, since the tangents formed when the arc connecting member 32 and the plate connecting member 31 are coupled to each other are kept coincident with each other, the plate connecting member 32 and the arc connecting member 31 have geometric continuity and thus stresses. Will be reduced as much as possible.

The present invention is configured as described above by forming a larger size of the connecting member 30 is installed in the x, y, z-axis direction as shown in Figures 3, 4, 5, the internal volume is changed in the same space LNG storage capacity can be easily adjusted, and the load capacity of LNG can be flexibly coped with the width of the standardized ship.

6 is an exemplary view showing a multi-axis extended spherical tank according to another embodiment of the present invention, the multi-axis extended spherical tank 10 of the present invention is configured to be spaced apart in two axial directions of the x, y, z axis. Can be.

That is, as shown in FIG. 6, the multi-axially extending spherical tank 10 is provided between the four blocks 20 formed by dividing in the x and z-axis directions and the blocks 20 to increase the internal volume of the spherical tank. The connection member consisting of two flat connection members 31 and four arc-shaped connection members 32 and the connection member 30 installed to fix the LNG storage tank to the ship. Note comprises a support skirt (40).

In addition, the multi-axis extending spherical tank 10 is also divided in the x, y-axis or y, z-axis direction to form the blocks 20, the connecting member consisting of a flat connection member 31 and arc-shaped connection member (32) 30) can be configured to increase the LNG storage capacity by connecting the blocks.

On the other hand, when considering the increase in capacity of the LNG storage tank in the fixed hull width when extending the multi-axis extended spherical tank it is preferable to extend by dividing in the x, z-axis direction.

As described above, the multi-axis extended spherical tank 10 of the present invention constitutes a connecting member of two or more axes so that the space of the ship can be efficiently utilized by appropriately adjusting the number of axes and the direction of the axes to be extended according to the size of the ship and the LNG loading capacity. Will be.

On the other hand, Figure 7 is an exemplary view showing an extension comparison of the multi-axis extended spherical tank 10 of the present invention, it is shown in Table 1 by comparing the extension length according to the number of extension shafts of the tank under the same volume conditions. In other words, when extending in one axis (CASE 1) to extend in two or three axes (CASE 2 & 3), it is possible to significantly reduce the pressure head under design load while maintaining the same volume.

TABLE 1

D (m) Sz (m) Sx (m) Sy (m) volume CASE1 42.88 12.7 59,600 m ³ CASE2 42.88 6.7 5 CASE3 42.88 4 5 2.4

On the other hand, Figure 8 is an exemplary view showing the arrangement state of the multi-axis extended rectangular tank of the present invention and the conventional rectangular tank, it shows a state arranged in the ship according to the extension form of the old LNG storage tank. For example, when a tank corresponding to a capacity of 216 m ³ is disposed, an existing spherical tank needs to arrange five tanks, while the multi-axis extension of the present invention can reduce the number of tanks to four, thereby improving productivity and reducing the pressure head. Reduction can reduce plate thickness relatively and make more effective use of hull hold space.

On the other hand, Figure 9 is an exemplary view showing a state in which a reinforcing material is further installed in order to optimize the structural strength of the extension portion of the multi-axis extended spherical tank of the present invention, the multi-axis extended spherical tank 10 of the present invention reinforces structural strength In order to achieve this, the reinforcement 60 may be further installed along the inner circumference of the LNG loading space formed by the plurality of blocks 20 and the connection member 30.

Since the reinforcing material 60 is installed to protrude from the block 20 and the connecting member 30 to a predetermined height, the reinforcing material 60 not only reinforces the strength of the multiaxially extending spherical tank 10, but also a slaw due to the fluid flow of the loaded cargo. It reduces the pressure.

Such a reinforcement 60 is formed along all or part of the x, y, and z axes, and when formed on two or more axes, they are formed to intersect with each other, thereby reinforcing the structural stability of the multi-axis extended spherical tank and increasing the sloshing pressure. Reduce.

In addition, the reinforcement 60 is formed in the shape of the cross-section 'T' or 'L' or flat bar (flat bar) so that it can be easily installed in the multi-axis extension spherical tank (10).

In addition, the reinforcing material 60 is formed of the same or similar material to form the multi-axis extended spherical tank 10, by preventing the damage by the shrinkage action according to the temperature of the load (LNG) multi-axis extended spherical tank ( The reinforcement of 10) will be maintained continuously.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effect of the present invention can be expected by the configuration and action as described above, by extending the old LNG storage tank in the x, y, z-axis direction to increase the internal volume in the same space, reducing the dead space inside the ship It can improve the space utilization efficiency of the ship, flexibly cope with the loading capacity in the width of the ship, and not only the structural strength is reinforced by the reinforcement installed inside, but also it can reduce the sloshing pressure caused by the flow of LNG. Is a very useful invention.

Claims (9)

In the three-dimensional spherical LNG storage tank having x, y, z axis, A plurality of blocks formed by dividing the spherical LNG storage tank along two or more axial directions among x, y, and z axes and spaced apart from each other; A connection member installed between the spaced blocks to integrate the blocks to increase the LNG storage capacity of the old LNG storage tank; One side end is connected to the connecting member and the other end is connected to the ship for supporting the LNG storage tank; Multi-axial extended spherical tank, characterized in that comprises a. The method of claim 1, The connecting member may include a flat plate connecting member that connects vertices of spaced blocks; A plurality of arc-shaped connection members connected to upper and lower ends of the plate-type connection members, respectively, and both side ends of which are connected to side portions of the blocks to connect adjacent blocks; Multi-axis extended spherical tank, characterized in that consisting of. The method of claim 2, The multi-axially extending spherical tank, characterized in that the radius of the arc-shaped connecting member is configured equal to the radius of the divided blocks. The method of claim 2, The tangential line formed when the arc-shaped connecting member and the plate-shaped connecting member are coupled is maintained to coincide with each other. The method of claim 2, The support skirt is a multi-axis extended spherical tank, characterized in that one end is connected to the plate-shaped connecting member and the arc-shaped connecting member located in the z-axis direction of the connecting member. The method of claim 1, Extension part is installed along the inner circumference of the space formed by the plurality of blocks and connecting members for optimizing the structural strength further comprises a reinforcement for reinforcing the structural strength and reducing the sloshing pressure of the fluid Multi-axis extension spherical tank characterized by The method of claim 6, The reinforcing material is a multi-axis extended spherical tank, characterized in that formed on part or all of the x, y, z axis. The method of claim 6, When the reinforcing material is formed on at least two axes of the x, y, z axis is formed multi-axially elongated tank, characterized in that intersecting with each other. The method of claim 6 or 8, The reinforcement is a multi-axis extended spherical tank, characterized in that the cross-sectional shape is formed in the form of 'T' or 'L' or flat bar.

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