JP2019078052A - Jack support for tank and construction method of tank - Google Patents

Abstract

To provide a jack support for a tank and a construction method of the tank capable of reducing a time required for removing an overhang part and further reducing a construction period while enhancing strength of the overhang part supporting a jack-up device.SOLUTION: An intermediate jack support 100, which is arranged on a side wall of an outer tank 2 and supports a jack-up device 19, comprises a base plate 110 arranged along the side wall of the outer tank 2 and an overhang part 120 overhanging from the base plate 110. The overhang part 120 comprises a supporting part 121 supporting the jack-up device 19 and a plurality of leg parts 122 connecting the supporting part 121 and the base plate 110.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a jack support for a tank and a method of constructing a tank.

  A double shell tank having an inner tank and an outer tank is used for storage of low temperature liquids such as LNG (liquefied natural gas) and LPG (liquefied petroleum gas). Patent Document 1 below discloses a method of constructing a cylindrical tank having an inner tank made of metal and an outer tank made of concrete. According to the method of constructing this cylindrical tank, in order to shorten the construction period of the cylindrical tank, a metal inner tank and a concrete outer tank are simultaneously applied.

  Specifically, while assembling the side wall of the outer tank on the base plate in advance of the side wall of the inner tank, a jack-up device is installed on the side wall of the outer tank in the middle of assembling, and the jack-up device By raising the body (including at least one of the roof portion, the knuckle portion, and the inner tank side plate) and attaching the inner tank side plates to the lower side of the body in sequence, the metal inner tank and the concrete Simultaneous construction with the outer tank is realized.

International Publication No. 2012/137671

By the way, in the said conventional method, a jack support is installed in the side wall of an outer tank, and the jackup apparatus is made to support the said jack support. Such a tank jack support has a base plate disposed along the side wall, and an overhang portion projecting from the base plate. An anchor is connected to the base plate, and the overhanging portion supports the jackup device while being cantilevered by the base plate. When a load of the jack-up device is applied to the projecting portion, a moment acts and a pulling force acts on the anchor bolt. At this time, since a large load is applied to the root portion of the overhang portion by the action of the moment, it is desirable to increase the strength by securing the thickness or the like.
On the other hand, in the above-described conventional method, when the lift body is jacked up by the stroke of the jack rod, the jack point (supporting position) on the hanging side is successively raised upward. Under the present circumstances, since there is a possibility that the said overhanging part may interfere with a lift, the said overhanging part is removed using a gas cutting machine etc., for example, but removal of the overhanging part which raised strength is not easy, and this overhanging part It took time to remove the

  The present invention has been made in view of the above circumstances, and while increasing the strength of the overhanging portion supporting the jack-up device, the time required for removing the overhanging portion is reduced, and the construction period is further shortened. It is an object of the present invention to provide a jack support for the tank that can be

  In order to solve the above problems, the present invention is a jack support for a tank which is provided on a side wall and supports a jack-up device, and a base plate disposed along the side wall and an overhang projecting from the base plate The projecting portion has a support portion for supporting the jackup device and a plurality of leg portions for connecting the support portion and the base plate.

  Further, in the present invention, a configuration is adopted in which the plurality of leg portions are provided in a pair so that the distance between them gradually increases from the support portion toward the base plate.

  Further, in the present invention, the jack-up device has a hook portion for positioning the position in the height direction of the jack-up device and rotatably hooking the jack-up device at a position above the support portion. Adopt the configuration.

  Further, in the present invention, the jackup device has a jack body and a jack rod which is moved by the operation of the jack body, the jack rod is connected to the suspension rack via a washer, and the support is supported. The unit adopts a configuration of supporting the jack-up device via the suspension rack.

  Further, in the present invention, an outer tank constructing step of constructing a side wall of the outer tank made of concrete, a jack support is installed on the side wall of the outer tank, and the jack support is supported by the jack support A method of constructing a tank having an inner tank construction step of alternately repeating the rise of the lift body due to and the welding of the inner tank side plate to the lower side of the lift body; As the jack support, the method of using the tank jack support described above is employed.

  Further, in the present invention, the inner tank constructing step supports the jackup device after the supporting position changing step of changing the supporting position of the jackup device upward, and the supporting position changing step. The method of having an overhang part removal process of removing the overhang part of a jack support is adopted.

  Further, in the present invention, in the overhang portion removing step, a method of cutting the plurality of legs is adopted.

According to the present invention, in the overhang portion projecting from the base plate, the support portion for supporting the jack-up device is connected to the base plate through the plurality of legs, so that the load applied to the root portion of the overhang portion is the plurality of legs It can be dispersed in parts. Therefore, the strength of the overhang can be increased without securing a large thickness for each of the plurality of legs, and removal of the overhang can be easily performed by cutting the legs. .
Therefore, in the present invention, it is possible to reduce the time required for removing the overhanging portion and to further shorten the construction period while enhancing the strength of the overhanging portion supporting the jackup device.

It is an explanatory view showing the 1st process of a construction method in an embodiment of the present invention. It is an explanatory view showing the 2nd process of a construction method in an embodiment of the present invention. It is explanatory drawing which shows the 3rd process of the construction method in embodiment of this invention. It is explanatory drawing which shows the 4th process of the construction method in embodiment of this invention. It is an explanatory view showing the 5th process of a construction method in an embodiment of the present invention. It is a side view which shows the connection of the intermediate | middle jack support and the suspension side mount frame in embodiment of this invention. It is an arrow A figure shown in FIG. It is arrow B figure shown in FIG. It is an arrow C figure shown in FIG. It is a perspective view which shows the intermediate | middle jack support of the state which removed the suspension side stand shown in FIG. It is an explanatory view showing an operation of an intermediate jack support in an embodiment of the present invention.

  Hereinafter, a method of constructing a side plate and a tank of the present invention will be described with reference to the drawings. The following description exemplifies a method of constructing a land-based PC (prestressed concrete) double shell storage tank for storing LNG. In the following drawings, some parts are enlarged or omitted for convenience of explanation, and the dimensional ratio of each component shown in the drawings is not necessarily the same as the actual one.

FIG. 1 is an explanatory view showing a first step of a construction method in the embodiment of the present invention. FIG. 2 is an explanatory view showing a second step of the construction method in the embodiment of the present invention.
In the present method, first, as shown in FIG. 1, a substantially disk-shaped basic version 1 is constructed. The inner tank anchor strap 4 is embedded in the outer peripheral edge of the base plate 1. Moreover, the outer tank 2 is constructed on the outer peripheral edge portion of the base plate 1 (outer tank constructing step). The outer tank 2 is a PC wall in which a plurality of outer tank side plates 3 (side plates) are disposed on the inner wall surface 2a.

  The outer tank 2 is constructed by casting concrete 5 with the outer tank side plate 3 as an inner form while assembling the outer tank side plate 3 on the base plate 1. The outer tank side plate 3 is a steel liner and doubles as a concrete form, and the outer tank 2 is lowered by placing concrete 5 to follow the assembly of the outer tank side plate 3 while installing the scaffold 6 b. We will build up in order from. The assembly of the outer tank side plate 3 is performed by joining a plurality of outer tank side plates 3 in a cylindrical shape in the circumferential direction of the tank and laminating the layers one by one. After the outer tank side plate 3 is assembled in one step, concrete 5 is cast using the outer tank side plate 3 and the outer tank 2 is assembled by repeating this.

  In the present method, the bottom liner 6 is laid on the base plate 1 in parallel with the assembly of the outer tank 2. Next, the roof mount 7 is assembled in the central portion of the foundation plate 1. Further, a construction port 8 for taking in the inner tank side plate 9 and the like is formed at the base end of the outer tank 2. Moreover, along the inside of the base end part of the outer tank 2, multiple gate type mount frames 10 for inner tank side plate assembly are installed. The portal type gantry 10 is installed so as to straddle an annular region X, which is a region where a cylindrical inner tank formed by combining a plurality of inner tank side plates 9 is to be finally lowered onto the base plate 1.

  Next, under the portal frame 10, a cold storage structure 12 such as a pearlite concrete block or a structural lightweight concrete block is temporarily placed. Under the portal frame 10, a cold insulation construction of the annular portion 13 (see FIG. 2) by the cold storage structure 12 is performed. The cold insulation work of the annular portion 13 is performed, for example, by assembling a pearlite concrete block and a structural lightweight concrete block on a bottom thermal resistance reducing material and attaching an annular plate thereon.

  When the cold insulation work of the annular portion 13 is completed, the leg portion 10a disposed on the inner side of the tank than the annular portion 13 is replaced on the annular portion 13 (see FIG. 2). As a result of such replacement, no interference is present on the inner side of the tank with respect to the annular portion 13, so that the cooling work of the central portion on the basic version 1 can be performed. In the cold insulation work of the central part, the foam glass 40 is placed on the bottom thermal resistance reducing material 39. Then, a pearlite concrete block (not shown) and an inner tank bottom plate (not shown) are sequentially laid on top of that.

  Moreover, in this method, as shown in FIG. 1, a plurality of jackup devices 19 are installed in the outer tank 2 in parallel with the above-described cold insulation work. First, the suspension stand 70 (hanging stand) is installed in the middle step portion of the outer tank 2. The suspension-side gantry 70 is detachably fastened and fixed to the intermediate jack support 100 (jack support for tank) provided on the inner wall surface 2 a of the outer tank 2. Further, the suspended support frame 80 is installed on the knuckle plate 11 assembled on the portal frame 10. The jack main body 19 a of the jack up device 19 is connected to the to-be-suspended side support frame 80. In addition, a jack rod 19 b which is stroked by the operation of the jack main body 19 a is connected to the suspension side stand 70.

  After the jack-up device 19 is thus installed, the knuckle plate 11 is lifted, and the inner tank side plate 9 is carried into the lower space formed by the jack-up. The inner tank side plate 9 is conveyed to a predetermined welding position, and the adjacent inner tank side plates 9 are welded to be joined together in the circumferential direction so as to be cylindrical as a whole. Next, the upper end portion of the inner tank side plate 9 is assembled to the lower end portion of the knuckle plate 11. Further, the upper end portion of the knuckle plate 11 is assembled to the outer peripheral edge portion of the inner tank roof 14 (the roof of the tank) which has been folded on the roof mount 7.

  Next, the roof frame 7 is removed, and the jack-up device 19 lifts the lift 60 including the inner tank roof 14, the knuckle plate 11 and the inner tank side plate 9. When the lifting body 60 is raised by the vertical width equivalent of the inner tank side plate 9 by the jack-up device 19, the next inner tank side plate 9 is carried into the space formed at the lower part of the inner tank side plate 9 by jacking up. When the inner tank side plate 9 carried in is joined together in the circumferential direction of the tank, the upper end thereof and the lower end (inner tank side plate 9) of the lift 60 are welded. Thus, in the present method, the raising of the inner tank side plate 9 by the jack-up device 19 and the welding of the next inner tank side plate 9 to the lower side of the raised inner tank side plate 9 are alternately repeated (inner tank construction Process).

  In addition, during this process, as shown in FIG. 2, the outer tank roof 22 (tank roof) is assembled on the inner tank roof 14. The outer tank roof 22 is connected to the inner tank roof 14 by a connecting member (not shown), and is integrally assembled with the inner tank roof 14. Further, when the lift 60 is jacked up by the stroke of the jack rod 19b, the lifting side jack point (supporting position) is sequentially raised upward (supporting position changing step). The hanging jack point is finally changed to the top 2A of the outer tank 2. At the top 2 </ b> A of the outer tank 2, a top jack support 90 to which the suspension rack 70 can be connected is installed. In this way, raising the inner tank side plate 9 by the jack-up device 19 and welding the next inner tank side plate 9 to the lower side of the raised inner tank side plate 9 are alternately performed while the jack point on the hanging side is refilled. Repeat the first structure 9a except for the lowermost stage of the inner tank side plate 9 repeatedly.

FIG. 3 is an explanatory view showing a third step of the construction method in the embodiment of the present invention.
In this method, as shown in FIG. 3, the lowermost stage of the inner tank side plate 9 is assembled on the annular portion 13 separately from the first structure 9a. After dismantling the portal frame 10, when the lowermost step of the inner tank side plate 9 is placed on the annular portion 13, adjacent inner tank side plates 9 are welded together and joined in the circumferential direction so as to become a whole cylindrical shape, Assemble the second structure 9b. After the second structure 9 b is assembled, the inner tank anchor strap 4 installed on the foundation plate 1 is attached. In addition, the elevating stairs 23 are provided outside the outer tank 2. In addition, the pump barrel 25 is carried into the outer tank 2.

FIG. 4 is an explanatory view showing a fourth step of the construction method in the embodiment of the present invention.
Next, in the present method, as shown in FIG. 4, the first structure 9a is jacked down, and the lower end of the first structure 9a is lowered to the upper end of the second structure 9b. The structure 9 a and the second structure 9 b are welded to assemble the inner tank 30. In this method, the assembly of the lowermost stage of the inner tank 30 is separated from the assembly of the inner tank 30 by the jackup device 19, and the second structure 9 b which is the lowermost stage of the inner tank 30 is fixed on the annular portion 13. Are moving ahead of time. Therefore, in the present method, fixing of the inner tank 30 on the annular portion 13 which takes about one month, for example, does not become a critical path, and the construction period can be shortened compared to the conventional method.

FIG. 5 is an explanatory view showing a fifth step of the construction method in the embodiment of the present invention.
When the inner tank 30 is completed, the outer tank roof 22 releases the connection with the inner tank roof 14 by a connecting material (not shown), and is installed at the upper end of the outer tank 2 assembled up to the uppermost stage. Also, the jackup device 19 is removed. In addition, a roof stairway 24 is provided on the outer tank roof 22. Also, the pump barrel 25 is installed.
Then, the tension work of the outer tank 2 is performed. Then, after closing the construction opening 8, water pressure is applied to carry out a pressure and air tightness test. Finally, the cold insulator 44 is disposed between the inner tank 30 and the outer tank 2 between the inner and outer tanks 15, and the cold insulator 44 is also arranged between the inner tank roof 14 and the outer tank roof 22 After the painting work and the pipe cooling work, the LNG tank 50 is constructed.

  Subsequently, the configuration of the intermediate jack support 100 used in the above-described method for constructing the LNG tank 50 will be described in detail with reference to FIGS.

FIG. 6 is a side view showing the connection between the intermediate jack support 100 and the suspension rack 70 in the embodiment of the present invention. 7 is an arrow A view shown in FIG. FIG. 8 is an arrow B view shown in FIG. FIG. 9 is a view on arrow C shown in FIG. FIG. 10 is a perspective view showing the intermediate jack support 100 in a state in which the suspension stand 70 shown in FIG. 6 is removed.
The intermediate jack support 100 is provided on the outer tank 2 and supports the jackup device 19 as shown in FIG.

  The intermediate jack support 100 has a base plate 110 disposed along the inner wall surface 2 a of the outer tank 2 and an overhang portion 120 horizontally projecting from the base plate 110 toward the inside of the tank. The base plate 110 is an embedded metal formed in a rectangular plate shape, and is joined to a rectangular opening 3 a 1 formed in the side plate main body 3 a of the outer tank side plate 3. The base plate 110 is formed to be thicker than the side plate main body 3a, for example, about three times as thick in order to withstand the load received from the jack-up device 19.

  A nut 113 is joined to the back surface 110 b of the base plate 110 in contact with the concrete 5. An anchor bolt 111 (anchor) is connected to the nut 113. The anchor bolt 111 is embedded vertically (horizontally) with respect to the concrete 5 of the outer tub 2. On the other hand, an overhanging portion 120 is provided on the surface 110 a of the base plate 110. The overhang portion 120 is cantilevered by a base plate 110 to which an anchor bolt 111 is connected.

  The overhanging portion 120 has a support portion 121 for supporting the jackup device 19 and a plurality of leg portions 122 (see FIGS. 8 and 10) for connecting the support portion 121 and the base plate 110. As shown in FIG. 6, the support portion 121 is configured to support the jackup device 19 via the suspension-side support 70. A jack rod 19 b of the jack-up device 19 is connected to the suspension-side gantry 70 via a washer 20.

  The support portion 121 is formed of a rectangular plate member as shown in FIG. 10, and its short side extends in a direction perpendicular to the surface 110 a of the base plate 110 (longitudinal direction) and its long side is parallel to the surface 110 a of the base plate 110 It extends in the vertical direction (vertical direction). In the support portion 121, an attachment hole 121a through which the attachment bolt 101 shown in FIG. 6 can be inserted is formed. A plurality of mounting holes 121 a are provided at intervals in the longitudinal direction (vertical direction) of the support portion 121.

  As shown in FIG. 8 and FIG. 10, the plurality of legs 122 are provided in a pair so that the distance between them gradually increases from the support 121 toward the base plate 110. The pair of leg portions 122 is formed of a rectangular plate member in the same manner as the support portion 121, and the short sides thereof are obliquely inclined with respect to the vertical direction of the surface 110 a of the base plate 110. The overhanging portion 120 of the present embodiment is Y-shaped in a plan view shown in FIG.

  Specifically, one long side of one leg 122 of the pair of legs 122 is joined to one plate surface of the support 121 via the joint 123, and the other long side is the other It is bonded to the surface 110 a of the base plate 110 via the bonding portion 124. The other long side of the other leg 122 is joined to the other plate surface of the support 121 via the joint 123, and the other long side is the surface 110a of the base plate 110 via the joint 124. Bonded to.

  The projecting portions 120 configured as described above are provided in pairs at intervals in the horizontal direction (left and right direction) along the surface 110 a of the base plate 110. The hanging stand 70 is detachably attached to the pair of projecting portions 120 via a mounting bolt 101. The suspension-side gantry 70 has a frame portion 71 attached to the support portion 121 and a pedestal portion 72 supported by the frame portion 71. In addition, although the suspension side mount frame 70 of this embodiment is integral in the state which connected the washer 20, if connection with the washer 20 is cancelled | released, it becomes a structure which can be divided | segmented into right and left.

  The frame portion 71 has a side frame 73 connected to the support portion 121 via the mounting bolt 101, and a front frame 74 joined to the side frame 73. A plurality of mounting holes corresponding to the mounting holes 121 a (see FIG. 10) formed in the support portion 121 are formed in the side frame 73. The mounting holes 121 a formed in the support portion 121 and the mounting holes formed in the side frame 73 are preferably elongated ones larger than the axis of the mounting bolt 101 or elongated in the vertical direction.

  Moreover, as the mounting bolt 101, it is preferable to use a high-strength bolt that fastens the support portion 121 and the side frame 73 by a frictional force. According to this configuration, vertical displacement between the mounting hole 121a formed in the support portion 121 and the mounting hole formed in the side frame 73 can be permitted to some extent, and the mounting bolt 101 can be easily inserted. Can. The front frame 74 is joined in a T shape to the side frame 73 in a plan view shown in FIG. As shown in FIG. 7, an arc-shaped notch 74 a is formed in the front frame 74. The jack rod 19 b can be visually recognized from the notch 74 a.

  The pedestal portion 72 is joined to the top surface of the T-shaped frame portion 71, as shown in FIG. Before and after the side of the pedestal portion 72, as shown in FIG. 6, a suspension piece 75 for suspending the suspension-side pedestal 70 with a crane or the like is joined. The pivot shaft 76 is joined to the suspension piece 75 on the rear side (the base plate 110 side) of the front and rear suspension pieces 75. As shown in FIG. 8, the pivot shaft 76 is provided so as to protrude in the left-right direction of the suspension-side gantry 70.

  The position of the vertical direction (height direction) of the suspension base 70 (jack-up device 19) is positioned on the base plate 110 via the pivot shaft 76, and the suspension base 70 (jack It has the latching | locking part 130 to which the up apparatus 19) is rotatably latched. As shown in FIG. 10, the hooking part 130 has an L-shaped hooking piece 131 having a horizontal part 131a and a vertical part 131b. The horizontal portion 131a extends in the vertical direction (front-rear direction) with respect to the surface 110a of the base plate 110, and the vertical portion 131b stands upward from the tip of the horizontal portion 131a.

  As shown in FIG. 6, the upper surface of the horizontal portion 131 a may be located below the upper surface of the leg portion 122. According to this configuration, the load received from the suspension-side rack 70 (jack-up device 19) can be borne by the overhanging portion 120 (leg portion 122) which is a strength member. That is, as shown in FIG. 8, the pivot shaft 76 rests on the upper surface of the outer leg 122 of the pair of legs 122. The pivot shaft 76 extends further outward than the hooking piece 131, and a support 132 for preventing the pivoting shaft 76 from falling off is preferably joined to the outward side surface of the hooking piece 131. For the support 132, for example, a U-shaped channel steel can be used.

  When the suspension stand 70 having the above-described configuration is attached to the support portion 121 of the overhang portion 120 via the attachment bolt 101 as shown in FIG. Receive a load from When a load from the jack-up device 19 is applied to the projecting portion 120, a moment acts and a pullout force acts on the plurality of anchor bolts 111 connected to the base plate 110.

  The plurality of anchor bolts 111 include a plurality of anchor bolts 111 having different lengths (a first anchor bolt 111A and a second anchor bolt 111B) as shown in FIG. The first anchor bolt 111A is connected to a first nut 113A joined to the area of the lower half of the base plate 110. Further, a second anchor bolt 111B longer than the first anchor bolt 111A is connected to a second nut 113B joined to the area of the upper half of the base plate 110.

  As shown in FIG. 9, on the back surface 110b of the base plate 110, anchor bolts 111 and nuts 113 are arranged in a matrix at intervals in the vertical and horizontal directions. Since the second anchor bolt 111B is longer and thicker than the first anchor bolt 111A, the second nut 113B joined to the upper half area of the base plate 110 is joined to the lower half area of the base plate 110 The size is larger than that of the first nut 113A.

  The plurality of anchor bolts 111 form a line in the vertical direction. The plurality of anchor bolts 111 form a first row 112a, a second row 112b, a third row 112c, a second row 112b, and a first row 112a in this order from the lateral end of the base plate 110. As shown in FIG. 8, the first row 112 a is a bolt row disposed at both ends in the left-right direction of the base plate 110. The second row 112 b is a bolt row disposed on the back side of the projecting portion 120. The third row 112 c is a bolt row disposed at the center of the base plate 110 in the left-right direction.

  As shown in FIG. 6, the plurality of second anchor bolts 111B forming the first row 112a are arranged to be longer in order as they go upward. In the upper half area of the base plate 110, the second anchor bolt 111B is disposed at the upper side, since the pulling force is increased as it goes upward by the action of the moment by the load of the jackup device 19. It is preferable to earn an effective horizontal projected area of the destruction. On the contrary, in the lower half area of the base plate 110, since a large pressing force (compression force) acts, a short first anchor bolt 111A may be disposed.

  The plurality of second anchor bolts 111B forming the second row 112b have a constant length as shown in FIG. 6, but any of the plurality of second anchor bolts 111B forming the first row 111a Is also getting longer. This is because, as shown in FIG. 8, the second row 112 b is disposed on the back side of the projecting portion 120 and a large pulling force acts.

  Although the plurality of second anchor bolts 111B forming the third row 112c are arranged to be sequentially longer as going upward, like the plurality of second anchor bolts 111B forming the first row 112a Both are shorter than the plurality of second anchor bolts 111B that form the first row 112a. This is because the third row 112c is sandwiched between the second row 112b, and the second row 112b bears a large pull-out force, so that the large pull-out force does not act on the central portion of the base plate 110 in the lateral direction. It is for.

Next, the operation of the intermediate jack support 100 configured as described above will be described.
As described above, in the inner tank construction step of the present method, the intermediate jack support 100 is installed on the side wall of the outer tank 2, and the jackup device 19 is supported by the intermediate jack support 100. And the welding of the inner tank side plate 9 to the lower side of the raised lift body 60 are alternately repeated to construct the inner tank 30.

  As shown in FIG. 6, the intermediate jack support 100 has a base plate 110 disposed along the side wall of the outer tank 2 and an overhanging portion 120 overhanging from the base plate 110. 19 is supported on one side. When the load of the jack-up device 19 (including the weight of the lift 60) is applied to the overhang portion 120, a moment acts and a pull-out force acts on the anchor bolt 111. At this time, a large load is applied to the root portion of the overhang portion 120 due to the action of the moment.

  In the present embodiment, as shown in FIG. 8, the support portion 121 of the projecting portion 120 for supporting the jackup device 19 is connected to the base plate 110 via the plurality of leg portions 122. According to this configuration, the load applied to the root portion of the projecting portion 120 can be distributed to and carried by the plurality of legs 122. For this reason, the strength of the projecting portion 120 can be increased without securing a large thickness of each of the plurality of legs 122.

  Further, the plurality of legs 122 are provided in a pair so that the distance between them gradually increases from the support 121 toward the base plate 110. According to this configuration, since the projecting portion 120 and the base plate 110 are connected at a plurality of points (a wide area) with a predetermined interval, the drawing force can be applied to substantially the entire surface of the base plate 110. For this reason, a large load is not locally applied locally to a part of the anchor bolt 111 disposed on the back surface 110 b of the base plate 110, and the allowable pulling-out force of the conical fracture can be increased.

  Moreover, in the inner tank construction process of this method, if the lift 60 is jacked up by the stroke of the jack rod 19b, the support position of the jackup device 19 is changed upward (support position change process). Here, as shown in FIG. 6, the jack rod 19b is connected to the suspension stand 70 via the washer 20, and the support portion 121 is configured to support the jackup device 19 via the suspension stand 70. Thus, the support frame 70 can be lifted integrally with the jack rod 19b, and the support position of the jackup device 19 can be changed upward. Therefore, the support position of the jack-up device 19 can be changed upward without disassembling the suspension-side gantry 70 and the jack rod 19b, and the time required for the work of replacing the jack-side of the suspension can be significantly shortened. be able to.

  Further, in the present embodiment, as shown in FIG. 6, the position of the jackup device 19 in the height direction is positioned, and the jackup device 19 is rotatably engaged above the support portion 121. A stop 130 is provided. According to this configuration, the height direction of the jack-up device 19 is obtained by hooking the pivot shaft 76 of the lifting-side support 70 that has been lifted to the hooking portion 130 of the intermediate jack support 100 disposed at the refilling destination. After that, it is possible to manually turn the suspension stand 70 about the pivot shaft 76 without using a crane or the like. For this reason, position alignment with the attachment hole 121a formed in the support part 121 and the attachment hole formed in the suspension side mount frame 70 becomes easy, and the fastening operation of the attachment bolt 101 can be performed easily. Furthermore, in the present embodiment, since a high strength bolt is used for the mounting bolt 101, a certain degree of deviation in the height direction can be tolerated.

  Further, in the inner tank constructing step of the present method, after the support position changing step of the jack-up device 19, the projecting portion 120 of the intermediate jack support 100 supporting the jack-up device 19 is removed (projected portion removing step) . According to this method, the overhanging portion 120 can be prevented from interfering with the lift 60. In the overhang removing step, it is preferable to cut the plurality of legs 122 as indicated by reference numeral L1 shown in FIG. That is, although the projecting part 120 of the present embodiment has a predetermined strength, the root part is formed by the plurality of legs 122 and the thickness of each of the legs 122 is not large. It is because it can be removed easily.

  Further, since the overhanging portion 120 of the present embodiment is formed in a Y-shape in plan view, for example, the leg portion 122 faces the front to a certain extent as compared with a T-shaped in plan view. The operator's access is easy, and the workability of gas cutting can be improved. In addition, as long as the hooking piece 131 also interferes with the lift 60, it may be cut as shown by a symbol L2 shown in FIG. In addition, it is preferable to deburr the overhang | projection part 120 after cutting | disconnection, and the hooking piece 131 by using a grinder etc.

  As described above, according to the above-described embodiment, the intermediate jack support 100 is provided on the side wall of the outer tank 2 and supports the jackup device 19, and is a base plate disposed along the side wall of the outer tank 2. 110, and an overhanging portion 120 projecting from the base plate 110. The overhanging portion 120 includes a support portion 121 for supporting the jack-up device 19, and a plurality of legs for connecting the support portion 121 and the base plate 110. By adopting the configuration of having 122, while increasing the strength of the overhanging portion 120 supporting the jackup device 19, the time required for removing the overhanging portion 120 is reduced, and the construction period is further shortened. Can be

  As mentioned above, although the suitable embodiment of the present invention was described referring to drawings, the present invention is not limited to the above-mentioned embodiment. The shapes, combinations, and the like of the constituent members shown in the above-described embodiment are merely examples, and various changes can be made based on design requirements and the like without departing from the spirit of the present invention.

  For example, in the above embodiment, the configuration in which the plurality of legs 122 are disposed in a V-shape has been described, but for example, the plurality of legs 122 are disposed in a U-shape. May be Also, the support portion 121 may be configured to be joined to the base plate 110. That is, it may be configured to have three legs in appearance. Further, three or more legs 122 may be provided.

  Also, for example, in the above embodiment, the configuration in which the anchor bolt 111 is connected to the base plate 110 via the nut 113 has been described, but the anchor bolt 111 may be directly joined to the base plate 110. Moreover, in the said embodiment, although the anchor bolt 111 was used as an anchor, another kind of anchor may be used.

2 Outer tank 2a inner wall surface (wall surface)
3 Outer tank side plate (side plate)
3a Side plate main body 3a1 Opening 5 Concrete 9 Inner tank side plate 19 Jack-up device 19a Jack main body 19b Jack rod 20 Washer 30 Inner tank 50 LNG tank (tank)
60 Lifting body 70 Hanging side stand (hanging stand)
76 Pivot axis 100 Intermediate jack support (tank jack support)
Reference Signs List 110 base plate 111 anchor bolt 111A first anchor bolt 111B second anchor bolt 113 nut 120 overhang portion 121 support portion 121 a mounting hole 122 leg portion 130 hook portion

Claims (7)

A jack support for a tank provided on a side wall and supporting a jack-up device,
A base plate disposed along the side wall;
And an overhang portion projecting from the base plate,
The projecting portion is
A support for supporting the jackup device;
A jack support for a tank, comprising: a plurality of legs connecting between the support and the base plate.   The tank jack support according to claim 1, wherein the plurality of legs are provided in a pair so that the distance between the plurality of legs gradually increases from the support toward the base plate.   The positioning device according to claim 1 or 2, characterized in that the jackup device has a hooking portion rotatably pivoted above the support portion while positioning the position in the height direction of the jackup device. Tank jack support described in. The jackup device is
With the jack body,
And a jack rod which is stroked by the operation of the jack body,
The jack rod is connected to the suspension rack via a washer.
The tank jack support according to any one of claims 1 to 3, wherein the support portion supports the jackup device via the suspension rack. An outer tank construction process of constructing a side wall of a concrete outer tank,
A jack support is installed on the side wall of the outer tank, the jack support supports the jack-up device, lifting of the lifting body by the jack-up device and welding of the inner tank side plate to the lower side of the lifting body. An inner tank constructing step of alternately constructing an inner tank by repeating the steps of
The tank jack support according to any one of claims 1 to 4 is used as said jack support, The construction method of the tank characterized by the above-mentioned. The inner tank construction process
A support position changing step of changing the support position of the jackup device upward;
The method for constructing a tank according to claim 5, further comprising: an overhang removing step of removing the overhanging portion of the jack support that has supported the jackup device after the support position changing step. .   The method for constructing a tank according to claim 6, wherein the plurality of leg portions are cut in the overhang portion removing step.

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