KR20110101748A - Supporting device and method for building ship using the same - Google Patents

Abstract

A block support apparatus and a ship construction method using the same are disclosed. A block support device for supporting a block which is a part of a ship, comprising: a support cap having an upper side coupled to a shell plate surface of the block and having a pair of through holes formed at both sides thereof, and a support portion having an upper end rotatably coupled to the support cap; The block is provided with a block supporting apparatus including a coupling head having a pinhole formed at an upper side thereof and an upper end inserted into the support cap to be rotatably coupled, and at least one support coupled in a row to the coupling head lower end. Combining the block support device without lifting the crane with the crane improves the convenience and safety of the block assembly work, saves the time required, reduces the operating time of the crane, and minimizes the use of the work area. .

Description

SUPPORTING DEVICE AND METHOD FOR BUILDING SHIP USING THE SAME}

The present invention relates to a block support device and a ship construction method using the same.

When a large vessel such as an oil tanker or a container ship is built, the hull cannot be dried at one time. Therefore, a method of manufacturing a block, which is a part of the hull, and then assembling the blocks together is used to complete the hull.

In the past, assembling work of such a block was performed in a dock, it took a long time to work in the dock, and the use efficiency of the dock was low. Currently, as the crane's hoisting capacity improves and the weight that can be transported at one time increases, the drying method of assembling as many blocks as possible within the range that the crane can transport and then mounting them on the dock is used. .

Thus, the number of ships that can be built within the same time is increasing as the service time of the crane is reduced and the working time in the dock is shortened. As such, the process of assembling the blocks into larger blocks before mounting them on the dock is called pre-erection.

Since the assembly of the blocks in the pre-mounting process is mostly done by welding, the blocks to be assembled should be fixed after the relative position is well maintained and the welding work is performed. However, the blocks have various shapes and should be fixed at various heights and positions depending on which part of the hull is formed. Therefore, the block supporting apparatus which supports a block in a predetermined position is used for this precedent mounting.

In the case of a block support device in which a support device is pre-installed in a workshop and a block is placed on it, care must be taken to ensure that the blocks lifted by the crane do not collide with the block support devices pre-installed in the workshop. That is, to prevent the block from colliding with the block supporting device, the block must be lifted high or the block must be moved to avoid the block supporting device. By the way, there is a limit to the height that the crane can lift the block, there is a disadvantage that does not utilize the space of the workshop efficiently to transport the block to avoid the block support device that the crane is pre-installed.

In addition, the method of joining the block support device to the block after lifting the block with the crane was also used, but the operation of joining the block support device to the block lifted in the air has a high risk of accident, It has the disadvantage of being used.

According to the present invention, the block support device can be easily coupled to the block, the work area used for assembling the block can be minimized, and the block support device for reducing the use time of the crane and the ship construction method using the same are provided. do.

In order to achieve the above object, according to an aspect of the present invention, a block support device for supporting a block which is a part of a ship, the upper side is coupled to the shell plate surface of the block and the support cap is formed with a pair of through holes on both sides And, the support cap includes a support portion that is rotatably coupled to the upper end, the support portion, the coupling head is formed in the upper pin and the upper end is inserted into the support cap rotatably coupled to the lower end of the coupling head in line There is provided a block support comprising at least one strut to be joined.

The support cap includes a square flat base panel, a flat main bracket having a lower end coupled to an upper surface of the base panel, and an upper side coupled to a shell plate of the block, and a main bracket of the four edges of the lower surface of the base panel. It may include three side plates respectively coupled to the edge portion of the direction coupled to the shell plate and parallel to the main bracket.

At this time, at least one through-hole may be formed in two of the three side plates parallel to the main bracket. The through hole may be elongated in a direction parallel to the base panel.

The coupling head may include a head main body having a rectangular pillar shape in which pinholes are formed, and the pinhole may be formed long in the longitudinal direction of the head body. The upper end of the head body may be provided with a support end in a direction parallel to the pinhole, and both sides of the support end may be inclined inclined toward the lower direction of the head body, respectively.

The support portion may further include an auxiliary column coupled to the lower end of the support and having a shorter length than the support. The support base may further include a lifting device installed at the lower end of the support and lifting or lowering the support.

In order to achieve the above object, according to an aspect of the present invention, the vessel drying method using the block support device as described above, the step of coupling the support cap to the block, by coupling the coupling head and the support support There is provided a ship building method using a block support device comprising assembling, rotatably coupling the upper end of the support to the support cap, and transferring the block to the work area.

At this time, the above-described ship building method, may further comprise the step of coupling the auxiliary column shorter than the column to the lower end of the column. Alternatively, the method may further include installing a lifting device for raising or lowering the support post to the lower end of the support post.

According to an embodiment of the present invention, since the block support device is coupled in a state in which the block is not lifted by a crane, the convenience and safety of the block assembly work is improved, the time required is saved, and the use time of the crane can be reduced, Minimize the use of the work area.

1 is a front view showing an example of a block;
Figure 2 is a front view showing a state in which the block supporting apparatus according to an embodiment of the present invention is coupled to the block shown in FIG.
Figure 3 is a front view showing a state in which the block shown in Figure 1 is supported by a block supporting apparatus according to an embodiment of the present invention.
4 is a front view showing another example of a block;
5 is a front view showing a state in which blocks of various shapes are supported by a block support device according to an embodiment of the present invention.
Figure 6 is an exploded perspective view for explaining the configuration of the block supporting apparatus according to an embodiment of the present invention.
Figure 7 is a front view showing the support and the supporting column of the block supporting apparatus according to an embodiment of the present invention.
Figure 8 is a front view showing the strut and lifting device of the block supporting apparatus according to an embodiment of the present invention.
9 is a flow chart for explaining a ship building method using a block support device according to an embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

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

1 illustrates an example of a block.

Referring to FIG. 1, the block 10 lies on the bottom surface 1 of the work area where the preceding mounting will be performed. One side of the block 10 is formed with a curved shell plate 11 forming an outer shell of the hull (not shown).

Here, the work area to be preloaded is adjacent to the dock or building berth, and can easily transport the assembly (not shown) of the blocks on which the preloading is completed by using a crane (not shown) to the dock. It can be a place to be.

2 is a view showing a block supporting apparatus according to an embodiment of the present invention coupled to the block shown in FIG.

2, the block support device 100 according to an embodiment of the present invention is coupled to the shell plate 11 of the block 10. At this time, the block supporting device 100 is coupled to the block 10 is placed on the bottom surface 1 without lifting the block 10 by a crane (not shown). Therefore, the block supporting device 100 can be easily coupled to the block 10.

In particular, since the upper end is coupled to the shell plate 11 in a state in which the lower end is supported by the bottom surface 1, the block supporting apparatus 100 is in the process of coupling the block supporting apparatus 100 to the block 10. There is no need to lift the entire support device 100 into the air. Therefore, a forklift truck (not shown) or the like, which is capable of safe work and has a smaller lifting capacity than a crane (not shown), may be used.

Coupling of the upper end of the block supporting device 100 and the shell plate 11 will be described again below.

3 shows a block shown in FIG. 1 supported by a block supporting apparatus according to an embodiment of the present invention.

Referring to FIG. 3, the block 10 is supported by the block supporting apparatus 100 according to the embodiment of the present invention with respect to the bottom surface 1. The block support device 100 includes a support cap 110 and a support portion, and the support portion includes a coupling head 120 and a support 130.

Here, the support cap 110 and the coupling head 120 is rotatably coupled. Therefore, as described with reference to FIG. 2, after the block support device 100 is coupled to the block 10 and the block 10 is lifted by a crane (not shown), the block support device 100 is the block 10. The coupling head 120 is rotated with respect to the support cap 110 while being lifted together. When the block 10 is sufficiently lifted, the lower end of the block supporting apparatus 100 is also lifted from the bottom surface 1, and the lower end of the block supporting apparatus 100 faces the bottom surface 1 by its own weight. The rotatable coupling of the support cap 110 and the coupling head 120 will be described with reference to FIG. 6 below.

Then, using a crane (not shown) to adjust the position of the lower end of the block support device 100 while gradually lowering the lower end of the block support device 100 in contact with the bottom surface 1, block 10 The block support device 100 can be stably supported on the bottom surface 1.

For reference, in the process of lifting the block 10 and the block supporting device 100 by a crane (not shown), the lower end of the block supporting device 100 may be damaged while being rubbed with the bottom surface 1. In order to prevent this, the lower end of the block supporting device 100 is supported by a cart (not shown) or the like, and then lifts the block 10 with a crane (not shown) and the lower end of the block supporting device 100. Can be used to remove the cart when is removed from the floor surface (1).

4 shows another example of a block.

Referring to FIG. 4, a block 30 is placed on a pedestal 2 called an A carrier mounted on the bottom surface 1. Here, the block can be placed in contact with the bottom surface 1 or the pedestal 2 according to the shape, in the case of the block 30 shown, the shell plate 31 can be placed on the pedestal (2) It is for example.

The illustrated block 30 will be mounted on the upper side of the hull (not shown) than the block 10 described with reference to FIG. 1, so that it is supported at a higher position than the block 10 shown in FIG. do. This will be described with reference to FIG. 5.

5 is a view in which blocks of various shapes are supported by a block supporting apparatus according to an embodiment of the present invention.

Referring to FIG. 5, blocks 10, 20, and 30 having various shapes are supported at different positions by the block supporting apparatuses 100, 101, and 102. The lowest block 10 and the block supporting apparatus 100 supporting the same are the same as described with reference to FIG.

The block 20 located above the block 10 supported at the lowest position from the bottom surface 1 is supported by the block supporting device 101. In this case, the block support device 101 includes a support cap 110 and a support portion coupled to the shell plate 21, and the support portion includes a coupling head 120, a support 130, and an auxiliary column 140. .

The block 30 supported at the highest position from the bottom surface 1 is supported by the block support device 102. The block support device 102 includes a support cap 110 and a support portion coupled to the shell plate 31, and the support portion includes a coupling head 120 and two struts 130.

As such, the block supporting apparatus 100, 101, 102 according to an embodiment of the present invention includes a support cap 110 and a support portion coupled to the surface of the shell plate 11, 21, 31, and the support portion is a support cap. Coupling head 120 is rotatably coupled to 110, and the support 130 is coupled to the upper end portion of the lower end of the coupling head 120. And, the support portion may further include an auxiliary column 140 in some cases.

That is, the support portion includes a coupling head 120 is inserted into the support cap 110 is rotatably coupled, the lower end of the coupling head 120 any one or more of the support 130 and the auxiliary column 140 Are formed by connecting them in a row.

However, the length of the support 130 may be manufactured in consideration of the height required to perform a work such as welding on the lower side of the block 10 supported at the lowest position from the bottom surface 1. Therefore, it will be described assuming that when only one support 130 is coupled to the coupling head 120 is the minimum length of the support.

Detailed structures of the support cap 110, the coupling head 120, the support 130, and the auxiliary support 140 will be described with reference to FIGS. 6 and 7.

6 is an exploded perspective view for explaining the configuration of the block supporting apparatus according to an embodiment of the present invention, Figure 7 is a strut and auxiliary holding of the block supporting apparatus according to an embodiment of the present invention is shown. . It demonstrates with reference to FIG. 6 and FIG.

First, referring to FIG. 6, the support cap 110 includes a base plate 111 having a rectangular flat plate shape, a flat main bracket 112 having a lower end coupled to an upper surface of the base panel 111, and a base panel 111. The three side plates 114, 114a, and 116 are respectively coupled to three edge portions of the four edge portions of the bottom surface.

A weld coupling portion 112a is formed at one side of the main bracket 112, and the welding coupling portion 112a is a shell plate 11, 21, 31 of the blocks 10, 20, and 30 described with reference to FIG. 5. The part to be welded to. However, since the shell plates 11, 21, 31 are formed at different angles with respect to the bottom surface 1 as shown in FIG. 5, the weld joints 112a may be shell plates 11, 21, After cutting corresponding to the shape and angle of 31, it is welded to the outer surface of the shell plates 11, 21, 31.

Since the main bracket 112 must be able to support the loads of the blocks 10, 20, and 30, a plurality of support brackets 113 are installed on the top surface of the base panel 111 to firmly support the main bracket 112. Can be. As shown in the drawing, the main bracket 112 may be installed in a direction parallel to one pair of two pairs of sides of the base panel 111.

Of the four edge portions of the lower surface of the base panel 111, the main bracket 112 is coupled to the shell plates 11, 21, 31 of the blocks 10, 20, 30, that is, the direction in which the weld connection 112a is formed. One side plate 116 is installed at the edge, and side plates 114 and 114a are installed at two edges in parallel with the main bracket 112. Therefore, the base panel 111 and the side plates 114, 114a, and 116 form a box-shaped space in which the lower side and one side are open.

A through hole 115 is formed in two side plates 114 and 114a installed side by side with the main bracket 112 among the side plates 114, 114a and 116. At least one through-hole 115 is formed, two may be formed as shown.

Coupling head 120 includes a head body 121 of a square pillar shape. The pinhole 125 is formed above the head body 121, and the support end 122 is formed at the upper end of the head body 121. The support end 122 is formed in a direction parallel to the pinhole 125, and a thick steel plate or the like is built in the support end 122 to support a large load. On both sides of the support end 122, inclined surfaces 123 and 124 inclined downward toward the head body 121 are formed, respectively.

A flange portion 127 is formed at the lower end of the head body 121. The edge portion of the flange portion 127 is formed with a plurality of fastening holes 128 through which the fastening member 129 is coupled. As illustrated, a plurality of ribs 126 supporting the head body 121 and the flange portion 127 may be formed at the lower edge of the head body 121.

The upper end of the coupling head 120 is inserted into the support cap 110 is rotatably connected. That is, as described above, a box-shaped space in which the lower side and one side are opened by the base panel 111 and the side plates 114, 114a, and 116 is formed at the lower side of the support cap 110. The upper end of 121 is inserted.

Thereafter, the pin member 117 is coupled through the through hole 115 and the pin hole 125 formed in the side plates 114 and 114a, and the fixing member 117a is coupled to the end of the pin member 117. Therefore, since the head body 121 is rotatably supported by the side plate 114 and the pin member 117, the coupling head 120 is rotatably coupled to the support cap 110.

Referring to FIG. 7, the support 130 includes a columnar support body 131, and flange portions 132 and 136 are formed at the upper end and the lower end of the support body 131, respectively. A plurality of fastening holes 133 are formed at the edges of the flange parts 132 and 136, and the fastening holes 133 are formed to allow the fastening member 129 to penetrate and engage.

Here, the flange portion 132 formed at the upper end of the support main body 131 is formed to correspond to the flange portion 127 formed at the lower end of the head body 121, the two flange portions 127, 132 are fastening member 129 ) May be coupled to each other by passing through the fastening holes 128 and 133. Therefore, the upper end of the support 130 may be coupled in a line to the lower end of the coupling head 120.

In addition, although not shown in detail, the flange portion 136 formed at the lower end of the support body 131 is formed to correspond to the flange portion 132 of the upper end. Therefore, as described with reference to FIG. 5, the plurality of struts 130 may also be combined in a line.

 A plurality of ribs 134 and 138 supporting the support body 131 and the flanges 132 and 136 may be formed at edges of the upper and lower ends of the support body 131.

The auxiliary column 140 includes an auxiliary column body 141 and a flange portion 142 is formed at an upper end thereof. The flange portion 142 is formed to correspond to the flange portions 132 and 136 of the support 130. Therefore, the auxiliary column 140 may be coupled in a row at the lower end of the coupling head 120 or the lower end of the support 130.

Supporting portion 146 is formed at the lower end of the auxiliary support 140, the supporting portion 146 is in contact with the bottom surface (1), the area can be made wider than the flange portion 142 to distribute the load have.

A plurality of ribs 144 and 148 may be formed at the upper and lower edges of the auxiliary support body 141 to support the auxiliary support body 141, the flange part 142, and the support part 146.

The auxiliary support 140, like the block support device 101 shown in Figure 5, when the block 20 can not be supported with respect to the bottom surface 1 by only the support 130, the overall block support device 101 It is used to adjust the length of. That is, the length (L2) of the auxiliary column 140 is made shorter than the length (L1) of the support 130, the relative position of the blocks (10, 20, 30) and coupled to the shell plate (11, 21, 31) Considering the height of the support caps 110, the auxiliary column 140 can be connected to the lower end of the support 130.

Referring back to FIG. 6, the pinhole 125 is formed long in the longitudinal direction of the head body 121. This allows the coupling head 120 to rotate smoothly with respect to the support cap 110, which will be described with reference to FIGS. 2 and 3 again.

First, referring back to FIG. 2, when the block 10 is placed on the bottom surface 1, the block supporting device 100 is rotated in the edge direction of the block 10. However, as shown in FIG. 3, when the block supporting device 100 lifts the block 10 by a crane (not shown) to support the block 10, the pin member 117 moves upward of the pinhole 125. The lower end of the support end 122 and the base panel 111 does not interfere with each other. Therefore, the coupling head 120 is smoothly rotated with respect to the support cap 110.

At this time, the inclined surfaces 123 and 124 formed on both sides of the support end 122, the upper end of the head body 121 of the base body 111 in the process of the coupling head 120 is rotated with respect to the support cap 110. It does not interfere with the lower surface. And, as described above, the three side plates 114, 114a, 116 are coupled to the bottom surface of the base panel 111, one direction is opened, which means that the coupling head 120 has a sufficient angle with respect to the support cap 110. It is to be able to rotate.

On the contrary, when the crane (not shown) as shown in FIG. 3 puts the block 10 down and the block 10 is supported by the block supporting device 100, the pinhole 125 is the pin member 117. Relative to. That is, the support end 122 contacts the lower surface of the base panel 111 to support the load of the block 10 transferred to the support cap 110. Although the area of the support end 122 is narrow, as described above, since the support end 122 includes a thick metal plate or the like, the load of the block 10 can be supported.

Figure 8 shows the strut and the lifting device of the block supporting apparatus according to an embodiment of the present invention.

Referring to FIG. 8, the lifting device 150 is installed at the lower end of the support 130. The lifting device 150 includes a hydraulic cylinder 151, a hydraulic pump 153, auxiliary supports 155 and 156, and a support plate 154.

The hydraulic cylinder 151 is provided with a lifting head 152 that can be raised or lowered. The hydraulic cylinder 151 raises or lowers the lifting head 152 by the power supplied to the hydraulic cylinder 151 by the hydraulic pump 153. The auxiliary supports 155 and 156 support the flange portion 136 of the support 130 so that the support 130 is stably supported by the lifting device 150. The supporting plate 154 is a portion that supports the load, and may be manufactured to have a sufficient area.

If the elevating device 150 is installed between the lower end of the support 130 and the bottom surface (1 of FIG. 5), the support 130 may be raised or lowered. Therefore, the height of the blocks 10, 20, and 30 of FIG. 5 may be adjusted using the elevating device 150.

In addition, by using the lifting device 150 can adjust the height of the blocks (10, 20, 30) without using a crane (not shown), it is possible to obtain the effect of saving the time that the crane is used in the preceding mounting have.

That is, when the lifting device 150 is included in the support of the block support device (100, 101, 102 of Figure 5) according to an embodiment of the present invention, the preceding mounting can be performed more smoothly.

9 is a flowchart illustrating a ship building method using a block supporting apparatus according to an embodiment of the present invention.

9, in the ship building method using a block support apparatus according to an embodiment of the present invention, the step of coupling the support cap to the block (S10), the step of assembling the support (S20), the support cap and the support Combining step (S30), the step of transporting the block (S40) and the step of fine-adjusting the height of the block support device (S50) is included.

First, as shown in FIG. 1, when the block 10 is placed on the bottom surface 1, the weld coupling part 112a of FIG. 6 is coupled to the shell plate 11. As described above, the welding coupling portion 112a is cut into a shape corresponding to the shell plate 11 to be coupled, and then welded to the surface of the shell plate 11. Alternatively, as shown in FIG. 4, when the block 30 is placed on the pedestal 2, the welding coupling portion 112a is coupled to the shell plate 31. In this case, as shown in FIG. 5, the welding coupling part 112a is cut in consideration of the direction in which the block 30 is finally positioned and welded to the surface of the shell plate 31.

That is, the support cap 110 is coupled to the blocks 10, 20, and 30 by welding the weld coupling portion 112a to the shell plates (see 11, 21, and 31 of FIG. 5) (S10).

As described with reference to FIGS. 3 and 5, the support portion includes a coupling head 120 and further includes a support 130 or an auxiliary column 140. Therefore, as shown in FIG. 5, the length of the support part is calculated in consideration of the height at which the blocks 10, 20, and 30 are to be supported, and thus, the support part is assembled (S20).

Here, the step of assembling the support base (S20) may proceed after the step (S10) of coupling the support cap to the block, or may be parallel, if the two steps (S10, S20) in parallel, the time required for work You can save.

The support cap is coupled to the block, and after the assembly of the support is completed, assemble the support to the support cap. That is, as shown in Figure 2, without lifting the block 10 by a crane (not shown), by assembling the support base to the support cap in a state in which the block 10 is placed on the bottom surface (S30) ) Complete the block support (see 100 in FIG. 2).

The reason why the through hole 115 is formed to be long in the direction parallel to the base panel 111 is to allow the pin member 117 to be easily inserted into the through hole 115 and the pin hole 125. That is, by forming the through hole 115 somewhat wide so that the pin member 117 can be easily inserted into the through hole 115.

When the block supporting apparatus 100 is completed, the block (see 10 in FIG. 3) is lifted by a crane (not shown) and transferred to the work area where the preceding mounting is to be performed (S40), and then the block 10 is lowered by the crane. The block 10 is supported by the block support device 100.

At this time, before lowering the block 10 by a crane, the height difference between the lower ends of the respective block supporting devices (see 100, 101, and 102 in FIG. 5) is compared with each other, so that the auxiliary column (see 140 in FIG. 5) is adjusted. The height of the block supporting apparatus (see 100, 101, and 102 of FIG. 5) is adjusted by installing or installing a lifting device (see 150 of FIG. 8) (S50).

Although the block supporting apparatus and the ship construction method using the same according to the embodiment of the present invention have been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art to understand the spirit of the present invention Within the scope of the present invention, other embodiments may be easily proposed by adding, changing, deleting or adding components, but this will also fall within the scope of the present invention.

10, 20, 30: block 110: support cap
120: coupling head 130: holding
140: auxiliary column 150: lifting device

Claims (11)

A block support device for supporting a block which is a part of a ship,
The upper side is coupled to the shell plate surface of the block, both sides support caps formed with a pair of holes; And
The support cap includes a support that is coupled to the upper end rotatably,
The support portion,
A coupling head having an upper pinhole formed therein, and having an upper end inserted into the support cap to be rotatably coupled thereto; And
And at least one support coupled to the lower end of the coupling head in a row.
The method of claim 1,
The support cap,
A square panel base panel;
A lower end coupled to an upper surface of the base panel, and an upper side coupled to a shell plate of the block; And
Block supporting device characterized in that the three side plates of the four edges of the lower side of the base panel is coupled to the edge portion in the direction in which the main bracket is coupled to the shell plate of the block and parallel to the main bracket .
The method of claim 2,
Block support device, characterized in that at least one through-hole is formed in two of the three side plates in parallel with the main bracket.
The method of claim 3,
The through hole is a block supporting device, characterized in that formed long in the direction parallel to the base panel.
The method of claim 1,
The coupling head,
It includes a head body of the square pillar shape in which the pinhole is formed,
The pinhole is a block supporting device, characterized in that formed long in the longitudinal direction of the head body.
The method of claim 5,
The upper end of the head body is formed with a support end in parallel with the pinhole,
Block supporting device, characterized in that formed on both sides of the support end inclined inclined toward the downward direction of the head body, respectively.
The method of claim 1,
The support portion,
Block supporting device is coupled to the lower end of the support, characterized in that it further comprises an auxiliary column shorter than the support.
The method of claim 1,
The support portion,
Block support device is installed on the lower end of the support, further comprising a lifting device for raising or lowering the support.
A ship construction method using a block support device according to any one of claims 1 to 8,
Coupling the support cap to the block;
Assembling the support base by combining the coupling head and the support;
Rotatably coupling an upper end of the support to the support cap;
Ship building method using a block support device comprising the step of transferring the block to the work area.
10. The method of claim 9,
And a second supporter having a shorter length than the supporter, coupled to the lower end of the supporter.
10. The method of claim 9,
And a step of installing a lifting device for raising or lowering the support to the lower end of the support.

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