WO2010085016A1 - Heavy weight transport and support device and heavy weight transport method using the same - Google Patents

Abstract

The present invention relates to a transport and support device for a heavy weight, which can easily move back and forth a heavy weight such as a ship, concrete caisson, bridge, building, or machinery and to a heavy weight transport method using the device. In the conventional method for moving a heavy structure back and forth, many supports are installed and arranged on the surface on which the heavy structure is constructed and the heavy structure is placed on pre-installed and arranged supports on the desired site after being transported to the desired site, requiring excessive installation area of a construction site because of fabrication and installation of the supports and also increasing costs and manpower and reducing work efficiency. In addition, the conventional method in which only either transverse or longitudinal transportation is possible results in problems including excessive occupation of a construction site, inconvenient transportation of the structure, work efficiency reduction, increase in manpower, and increase in costs. Therefore, the present invention provides a heavy weight transport and support device and a heavy weight transport method using the same, wherein the device can be used not only as a support at a construction site for a heavy structure but also as a support after transportation by being moved along with a heavy structure transported back and forth, thereby minimizing the number of supports, and particularly can transport a heavy structure freely in transverse and longitudinal directions. Accordingly, the device and the method facilitate transportation of a heavy structure, minimize installation area at a construction site, maximize productivity through improved work efficiency and shortened fabrication period, and reduce manpower and cost.

Description

Heavy load moving support device and heavy load moving method using the same

The present invention relates to a heavy load moving support device capable of easily moving forward and backward for heavy loads of ships, concrete caissons, bridges, buildings, and mechanical devices, and heavy load moving methods using the same;

In particular, it can be used as a supporter in the construction site of high load structure, and it can be used as a support even after the movement is completed by moving the high load structure simultaneously with the structure during forward and backward movements, thereby minimizing the number of supports. At the same time,

Providing a high load moving support device and a moving method using the high load structure freely movable in the transverse and longitudinal direction;

It is easy to move the heavy load structure,

Minimizing the installation area of the construction site,

The present invention relates to a heavy load moving support device and a heavy load moving method using the same, maximizing productivity by reducing work cycles by greatly improving workability and reducing the number of drop-offs and costs.

In general, when manufacturing a ship that is a super-heavy structure, the structure is large, so a separate large dock is produced on the sea as a transport problem, and after the ship is manufactured in the dock, the dock is filled with water However, the cost of the separate production of the dock is enormous, and the production period takes a long time, when manufacturing a recent ship, the ship is built on the land after the dock without the need for a dock, transported to the sea to launch the launch method I'm using

In this regard, after installing a plurality of columns (SUPPORTER) in the form of a column on the ground, the ship is built on the top of the plurality of supports, and then installed a plurality of skidway on the lower surface of the completed vessel from the outside of the ship Winch or PUSH-PULL device, which is a moving device, is used to push or pull to move the barge and to make water at sea.

In addition, the same method as above, even when moving a super-heavy concrete structures, such as concrete caissons, bridges, buildings, machinery

After installing a plurality of pillar-shaped supports on the ground in several places, after fabricating the structure from the upper portion of the plurality of supports, and installing a plurality of skidway on the lower surface of the completed structure winch or push -A moving method of moving by pushing or pulling by using a pull device is used.

However, the above moving method is not moving smoothly on the top of the skidway due to the excessive load of the structure when the ship or concrete caisson, bridges, buildings, machinery, etc., which is an ultra-heavy structure It required a lot of force, difficult to control during the movement, the structure is an ultra-heavy structure, the weight of the structure is not supported evenly during the movement of the structure is not evenly supported by the weight of the movement, it is difficult to move the horizontal movement accurately, There is a problem in that the structure is out of balance and out of the structure breaks the structure;

In particular, a plurality of supports are installed and arranged on the ground for moving forward and backward of the heavy load structure, and the heavy load structure is constructed on the upper part of the support and the structure is completed even after the heavy load structure is moved to a desired place. Is configured to be stacked on top of a plurality of supports pre-installed, arranged in the moved place,

Due to the production of a plurality of supports and the installation of the ground yard, the installation area of the yard was excessively consumed, and problems such as cost increase, discharged man-hour, and workability were deteriorated;

In addition, the movement method of the heavy load structure is a movement method that can be moved only in one of the transverse longitudinal directions, so that the area of the construction site is excessive, the movement of the structure is inconvenient, workability decreases and the number of drop-outs is increased. In other words, there is a problem of cost increase.

The present invention provides a heavy load moving support device and a heavy load moving method using the same,

In particular, by the heavy load moving support device can be used as a support (SUPPORTER) in the construction site of the heavy load structure, the high load structure can be used as a support even after the movement is completed by moving simultaneously with the structure during the forward and backward movements It is possible to improve the workability by minimizing the number of supports installed, minimize the area of the farm, and reduce the cost;

Providing a heavy load moving method using a heavy load moving support device configured to be freely moved in the transverse and longitudinal direction of the heavy load structure;

The movement of the heavy load structure is easy;

Minimizing the installation area of the construction site;

It is an object of the present invention and the present invention to provide a heavy load moving support device and a heavy load moving method using the same by maximizing productivity by greatly reducing workability and greatly reducing the production cycle of the structure and reducing the number of drop-offs and costs. Let it be technical problem to make invention.

The present invention provides a heavy load moving support device and a heavy load moving method using the same, thereby solving the above problems.

By a heavy load moving support device of the present invention configuration and a heavy load moving method using the same;

It can be used as a supporter in the construction site of high load structure, and it can be used as a support even after the movement is completed by moving the high load structure at the same time as the above structure when moving forward and backward. Improving, minimizing the area of the farm and reducing costs;

The movement of the heavy load structure is easy;

Minimizing the installation area of the construction site;

It is a very useful invention that can maximize productivity by reducing work cycles of structures by improving workability, and at the same time, reducing the man-hour and cost.

1 is a perspective view showing a moving support device of the present invention,

Figure 2 is a perspective view showing a state in which the moving device is inserted into the insertion portion of the mobile support device of the present invention,

3 and 4 is a perspective view showing a moving device and a transfer device integrated with a support device of the present invention a mobile support device,

Figure 5 is a perspective view showing a state of use of the movement support device of the present invention,

6 is a schematic diagram schematically showing a transverse direction in a transverse direction and a longitudinal direction of the movement supporting apparatus of the present invention;

7 is a flow-sHEET step by step showing a heavy load moving method using the present invention the movement support device,

FIG. 8 is a flow-shift diagram illustrating a stepwise shifting method of the heavy load moving method using the moving support device of FIG.

<Description of Major Symbols in Drawing>

1000: heavy load moving support device

1010: main body 1020: laminated portion

1030: support portion 1040: insertion portion

1050: tightening force reinforcement

100: moving device

10: main body 20: laminated portion

30: fastening unit (PUSH-PULL) device fastening part 40: moving device connection part

50: lift adapter 60: lubricating oil supply unit

70: skidway wiper 80: wheels

200: support device

210: body 211: hydraulic cylinder

212: mobile unit mounting portion 213: wheels

300: Feeding (PUSH-PULL) device

310: main body 320: hydraulic cylinder

330: laminated portion 340: clamping portion

400: skidway

410: main body 420: rail

500: Hydraulic supply device

510: main body 520: fastener for moving device

530: wheels

The configuration of the heavy load moving support device of the present invention;

1) main unit

2) Lamination

3) support

4) Insertion part

5) Consists of tightening force strengthening part,

It relates to a heavy load moving support device that is a super-heavy cargo ship, concrete caisson, bridges, buildings, machinery, heavy load structure is laminated to the stacking portion to move forward and backward in the transverse and longitudinal direction at the top of the skidway .

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a movement support device of the present invention,

2 is a perspective view illustrating a state in which a moving device, which is an auxiliary facility, is inserted into an insertion unit of the moving support device of the present invention;

3 and 4 are perspective views showing a moving device and a transfer device in which a support device, which is an accessory of the present invention, is integrated.

5 is a perspective view showing a state of use of the movement support device of the present invention,

Figure 6 is a schematic diagram schematically showing the transverse direction and the longitudinal direction switching state of the movement support device of the present invention,

7 is a flow-sheet showing a step of moving a heavy load using the present invention the movement support device,

FIG. 8 is a flow-sheet illustrating a stepwise moving method of the heavy load moving method using the moving support device of FIG.

As shown in Figure 1, the heavy load moving support device 1000 of the present invention,

Ship 10, which is a super-heavy cargo, concrete caisson, bridges, buildings, machinery is stacked, the main body 1010 is moved forward and backward;

A stacking unit 1020 on which a high load structure provided on the main body is stacked;

Support (SUP) for supporting the load of the high-load structure stacked on the laminated portion 20

A plurality of supports 1030 provided on the lower part of the main body for PORTER;

The transverse direction and the longitudinal direction of the lower part of the main body for the purpose of inserting the moving device 100 in which the main body and the supporting device for the forward and reverse movement of the main body and the heavy load structure are integrated during the forward and backward movement of the heavy load structure. A plurality of inserts 1040 provided in a direction;

And a plurality of fastening force reinforcing parts 1050 provided on the side of the stacking part for use in which the fastening force of the stacking part is strengthened.

The moving device 100 in which the supporting device 200 is integrally blocked is inserted and installed in the inserting portion 1040 of the heavy load moving support device 1000 having the above configuration. Technical configuration of the forward and backward movement by the transfer (PUSH-PULL) device 300 that pushes or pulls the moving device 100 in a state in which the stacked moving support device 1000 is lifted upward (see FIG. 5). )

As shown in Figure 2, the forward and backward movement technical configuration of the heavy load moving support device 1000 ( hereinafter referred to as "moving support device" ),

The super-heavy cargo vessel, concrete caisson, bridges, buildings, high load structure of the mechanical device is laminated on the stacking unit 1020 of the mobile support device 1000 of FIG.

The mobile device 100 having a structure in which the support device 200 is integrally blocked on the insertion part 1040 of the moving support device 1000 is inserted and a skidway 400 is installed at the lower part of the insertion part. The moving support device 1000 in which the high load structure is stacked on the bottom surface of the 400 is fastened to the moving device 100 by being lifted upward by the moving device 100 having the above configuration to move the moving device. The push and pull transfer (PUSH-PULL) device 300 is a technical configuration (see Fig. 5) to be moved forward and backward.

As shown in FIG. 3 and FIG. 4, the moving device 100 in which the support device 200 is integrally blocked,

The loads of the mobile device 100 and the high load structure are supported by the hydraulic cylinders 211 of the support device 200, which are mounted on the lift adapters 50 of the plurality of mobile devices 100, and are integrally blocked. As the hydraulic cylinder 211 moves forward,

The wheel 213 of the support device 200 is moved from the inner rail portion 420 of the skidway 400 in a state in which the moving device 100 having the configuration is lifted upward from the bottom surface of the skidway 400. Driven by a technical configuration that moves forward and backward;

Mounted on the lift adapter 50 of the mobile device 100 by pushing or pulling the main body 10 of the mobile device 100 with the transfer device 300 coupled to the transfer device coupling portion 30 of the mobile device. The support device 200 has a frictional force is minimized at the top of the skidway 400 so that the wheel 213 of the support device is driven on the inner side of the rail portion 420 of the skidway to be moved forward and backward. There is,

The mobile device connection part 40 of the mobile device 100 is composed of a plurality of mobile devices having a plurality of mobile devices connected to each other, the mobile device connection portion 40 provided on one side of the mobile device 100 The hydraulic supply device 500 is connected to the support device 200 and the hydraulic cylinders 211 and 320 of the transfer device 300 are configured in a technical configuration in which the hydraulic pressure is supplied.

In addition, the hydraulic pressure supply device 500, the main body 510 to which hydraulic pressure is supplied and a moving device coupling part 520 connected to the moving device connecting portion 40 of the moving device 100 on one side of the main body is provided. Is provided, a plurality of wheels 530 to be driven in the upper portion of the skidway 400 is provided in the lower portion of the main body 510, the support device 200 and the transfer device 300 in the main body 510 Of the hydraulic cylinders 211 and 320 are configured to supply hydraulic pressure.

The transfer device 300, the main body 310 is installed on the rail portion 420 of the skidway 400 and the front and rear movement by the hydraulic pressure on the front of the main body to move the moving device 100 of the configuration Is equipped with a hydraulic cylinder 320 for the reverse movement,

On the bottom of the main body 310 is provided a stacking portion 330 stacked on the rail portion 420 of the skidway 400,

A clamping part 340 having a configuration in which the hydraulic cylinder is extended or folded inside when the hydraulic cylinder moves forward or backward is disposed below the stack 330 so that the main body 310 moves forward or backward. In this configuration, the hydraulic cylinder 320 is fastened to the conveying device fastening portion 30 of the mobile device 100 of the present invention configuration by pushing or pulling the mobile device 100 of the mobile device 100 of the configuration. And the support device 200 is made of a technical configuration that is moved forward, backward from the top of the skidway (400).

The technical configuration of the support device 200 and the transfer device 300 of the above configuration, the applicant of the Republic of Korea Patent Registration No. 0628695 "Horizontal transportation device of heavy loads" and Patent Registration No. 0598962 "Heavy load transportation device of It is an invention that is pre-registered as "Horizontal mobile device

In addition, the mobile device 100, the support device is integrally blocked bar patent applicant as the applicant of the present invention as a separate invention does not claim a separate claim in the present invention,

However, it will be described and claimed to be used as an accessory for use for the forward and backward movement of the movement support device 1000 of the present invention mentioned above.

As shown in Figure 5, in the configuration as described above,

The high load structure is laminated on the stacking unit 1020 of the mobile support apparatus 1000 of the present invention located outside the skidway 400, and the load of the high load structure is primarily supported by the plurality of support units 1030.

The moving device 100 in which the supporting device 200 of FIG. 2 is integrally inserted into the inserting unit 1040 is easily installed on the skidway 400 by using the wheel 80 of the moving device. ,

Transfer device 300 is stacked on the side of the skidway 400 so that the hydraulic cylinder 320 of the transfer device pushes or pulls the moving device 100, the high load structure is stacked moving support device 1000 With technical configuration to move forward and backward;

By the hydraulic cylinder 211 of the support device 200 mounted on the mobile device 100, the load of the mobile support device 1000 and the mobile device 100 in which the high load structure is stacked is supported.

As the hydraulic cylinder 211 moves forward, the support device 1000 and the mover 100 in which the high load structure is stacked are lifted upward from the bottom of the skidway 400. The wheel 213 of the device 200 is driven from the inner rail portion 420 of the skidway 400, so that the frictional force is minimized, so that the forward and backward movement of the high load structure is easy, and the workability is improved;

The moving device by pushing or pulling the moving device 100 by hydraulic pressure during the forward and backward movement of the hydraulic cylinder 320 of the moving device 300 fastened to the transfer device coupling part 30 of the moving device 100. A plurality of wheels 213 of the support device 200 mounted on the lift adapter 50 of the 100 is driven on the inner side of the rail portion 420 of the skidway 400 to move forward and backward, thereby a high load structure The stacked movement support device 1000 and the movement device 100 are made of a technical configuration to facilitate the forward and backward movement on the skidway 400.

In addition, it can be used as a support in the construction of the heavy load structure by the high load moving support device 1000 of the present invention with the configuration as described above, the high load structure is moved simultaneously with the structure during the forward and reverse movement The configuration can be used as a support even after completion, while minimizing the number of installation of the support (SUPPORTER) installed on the ground of the prior art,

This minimizes the installation area of the yard;

By improving workability, greatly shortening the production cycle of structures, maximizing productivity, reducing construction work and cost,

A plurality of tightening force reinforcing parts 1050, which are fastening force reinforcing tools, are integrally mounted on the side surfaces of the stacking part 1020, so that the load bearing capacity of the high load structure is further strengthened.

As shown in Figure 6, by the high load moving support device 1000 of the above configuration,

The super-heavy load heavy structure is stacked on the high load moving support device 1000 of the present invention, a plurality of moving device 100 composed of a plurality of transverse arrangement inserting portion 1040 of the high load moving support device 1000 Is inserted into the transverse array skidway 400, the heavy load structure is moved in the transverse direction;

When changing the longitudinal direction during the movement in the lateral direction is inserted into the transverse array insert, the moving device 100 installed on the skidway 400 of the transverse array after moving outward from the transverse array skidway,

The moving device 100 is inserted into the insert portion 1040 of the longitudinal arrangement of the high load moving support device 1000, and is installed on the skidway 400 of the longitudinal arrangement so that the heavy load structure is changed in the longitudinal direction. In a possible configuration,

In particular, the heavy load of the ship, concrete caisson, bridges, buildings, mechanical devices are separated to the outside by the heavy load moving support device 1000 of the present invention at the time of direction change movement in the longitudinal and transverse directions, Unloaded to the ground,

The load is supported by being stacked on the movement supporting apparatus 1000, and the movable apparatus 100, which is an accessory facility, is installed or moved outwardly on the skidway 400 in a horizontal or longitudinal arrangement by the inserting portion 1040. This makes it possible to make the high load structure easy to change directions in the transverse and longitudinal directions.

By the heavy load moving support device 1000 of the present invention configuration is easy to switch transverse and longitudinal directions as described above;

It is easier to move the heavy load structure, thereby minimizing the installation area of the construction site;

As workability is further improved, the production cycle of the structure is greatly shortened, thus maximizing productivity, and significantly reducing the amount of dropping labor and costs.

Hereinafter, the heavy load moving method using the heavy load moving support device of the present invention configuration will be described.

As shown in FIG. 7, the heavy load moving method using the heavy load moving support device of the present invention is composed of the following moving methods in steps S1 to S4.

S1 step: fabricating the structure on top of the heavy load moving support device

Ships, concrete caissons, bridges, buildings, heavy loads of structures, machinery, the body 1010 is moved before and after the structure, the laminated portion 1020, the support portion 1030, the insertion portion 1040 , Is manufactured in the upper portion of the heavy load moving support device 1000 composed of a fastening force reinforcing portion (1050).

S2 step: installation of the skidway and insertion of the moving device in the insert portion of the heavy load moving support device

The mobile device 100 in which the skidway 400 is installed and the support device 200 is integrally blocked by the insertion part of the transverse direction or the longitudinal insertion part 1040 of the movement support device 1000 of the step S1. ) Is inserted into the insertion portion 1040, and installed on the skidway 400 using the wheel 80 of the mobile device 100.

S3 step: moving the moving support device and the moving device stacked with the high load structure from the bottom of the skidway

The hydraulic cylinder 211 of the support device 200 is moved forward, and the movable support device 1000 and the mobile device 100 on which the heavy loads are stacked are simultaneously lifted upward from the bottom surface of the skidway 400. (JACK UP)

S4 step: moving forward and backward of the moving support device in which the heavy load structure is stacked

The wheel 213 of the support device 200 integrally mounted on the lower part of the moving device by pushing or pulling the moving device 100 with the transfer device 300 PUSH-PULL connected to the moving device 100 is a skidway 400. By being driven from the inner rail portion 420 of the) to move the moving support device 1000 in which the high load structure is stacked, forward and backward.

In addition, as shown in FIG. 8, when the movement supporting apparatus in which the high load structure is stacked in either the transverse direction or the longitudinal direction as described above is required for the shift movement in the other direction during the movement, the steps S1 to S4 are performed. The following S5 to S8 step is composed of a moving method is added.

Step S5: When the direction change point is reached, the mobile support device on which the heavy load structure is stacked is seated on the floor

When the moving support device 1000 in which the heavy load structure moved in either the transverse direction or the longitudinal direction is stacked in the step S4 reaches the direction change point, the support device is integrally mounted on the lower part of the moving device 100. By moving the hydraulic cylinder 211 of the back (200), the moving support device 1000 in which the high load structure is stacked is seated on the ground.

Step S6: withdrawal of the mobile device installed in the insertion unit of the moving support device and re-installation of the mobile device in the insertion unit opposite to the insertion unit

The skidway is inserted into the insertion portion 1040 of the moving support device 1000 of the step S2.

Using the wheel 80 of the mobile device 100, the support device 100 installed on the 400 is integrally blocked using the wheel 80 of the mobile device 100 to move and withdraw the mobile device 100 installed on the skidway to the outside And, the withdrawal of the moving device is inserted into the moving device 100 of the step S2 is inserted

The skidway 400 is installed in the opposite direction to the inserting portion 1040 and the moving device 200 in which the support device is integrally blocked is inserted into the inserting portion 400 provided in the opposite direction to the skidway 400. Re-install using the wheel 80 of the mobile device (100).

S7 step: the other direction of the shifting movement step of the moving support device stacked high-load structure

By repeating the steps S3 to S4, the moving support device 1000 in which the heavy load structure moved in either the transverse direction or the longitudinal direction of the step S4 is stacked is shifted to the other direction.

Step S8: Settling the floor of the mobile support device on which the heavy load structure is stacked and withdrawing the external device of the mobile device

When the moving support device 1000 in which the heavy load structure is stacked reaches the moving destination, the hydraulic cylinder 211 of the supporting device 200 mounted on the moving device 100 is reversed to support the moving support in which the heavy load structure is stacked. The device 1000 is seated on the ground, and after the seating, the mobile device 100 is moved and withdrawn from the skidway 400 by using the wheel 80 of the mobile device 100.

By the moving method of the steps S1 to S4 as described above;

Since the heavy load structure is loaded on the mobile support device of the present invention and moved forward and backward in the state of being lifted upward from the bottom of the skidway, frictional force is not generated and the movement of the heavy load structure is easy.

The installation area of the livestock farm is minimized by the moving support device,

The workability is improved, and the production cycle of the structure is greatly shortened, so that the productivity is improved, and the transportation method of the configuration that reduces the man-hour and cost is reduced;

In particular, by the direction conversion movement method of the steps S5 to S8;

The heavy load structure can move freely in the transverse and longitudinal directions,

The movement of the heavy load structure is easier;

The installation area of the yard is further minimized,

The workability is further improved to maximize the productivity, and the movement method of the configuration that further reduces the man-hours and costs.

The present invention provides a heavy load moving support device and a heavy load moving method using the same,

Solving the problems of the prior art;

In particular, by the heavy load moving support device can be used as a support (SUPPORTER) in the construction site of the heavy load structure, the high load structure is used as a support even after the movement is completed by moving simultaneously with the structure during the forward and backward movements It is possible to improve work efficiency and minimize the size of the construction site by minimizing the number of installation of the support and reduce the cost;

By providing a heavy load moving method using a heavy load moving support device of the structure that the heavy load structure can be moved freely in the lateral direction and the longitudinal direction,

The movement of the heavy load structure is easy;

Minimizing the installation area of the construction site;

It is a very useful invention that can maximize productivity by reducing work cycles of structures by improving workability, and at the same time, reducing the man-hour and cost.

Claims (5)

1. The heavy loads of ships, concrete caissons, bridges, buildings, and mechanical devices are moved forward and backward on the skidway by using the PUSH-PULL device. Heavy load moving support device 1000,

   A main body 1010 to which the heavy load structure is stacked and moved forward and backward;

   A stacking unit 1020 on which a high load structure provided on the main body is stacked;

   A plurality of supports 1030 provided under the main body for supporting a load on which the structure is supported;

   A plurality of transversely and longitudinally provided in the lower portion of the main body, the movement device 100 for inserting the load support and forward and backward movement of the main body and the heavy load structure is inserted during the forward and reverse movement of the heavy load structure Inserts 1040;

   A fastening force reinforcing part 1050 provided on the side of the stacking part for use in which the fastening force of the stacking part is strengthened; Consist of

   The moving support device 1000 is a high load, characterized in that the support device 200 is moved forward and backward by the moving device 100 and the transfer device 300 is integrally blocked at the upper portion of the skidway 400 Water transfer support.
2. According to claim 1, Support device in the insertion portion 1040 of the moving support device 1000

   High load moving support device, characterized in that the 200 is integrally mounted moving device 100 is inserted.
3. According to claim 1, Heavy load moving support device, characterized in that the skidway 400 is installed below the insertion portion (1040) of the moving support device (1000).
4. Heavy load moving method, characterized in that the moving method of the heavy load of ships, concrete caissons, bridges, buildings, machinery of ultra-heavy goods consists of the following steps of S1 to S4

   S1 step: fabricating the structure on top of the heavy load moving support device

   Ships, concrete caissons, bridges, buildings, heavy loads of structures, machinery, the body 1010 is moved before and after the structure, the laminated portion 1020, the support portion 1030, the insertion portion 1040 , Is manufactured in the upper portion of the heavy load moving support device 1000 composed of a fastening force reinforcing portion (1050).

   S2 step: installation of the skidway and insertion of the moving device in the insert portion of the heavy load moving support device

   The mobile device 100 in which the skidway 400 is installed and the support device 200 is integrally blocked by the insertion part of the transverse direction or the longitudinal insertion part 1040 of the movement support device 1000 of the step S1. ) Is inserted into the insertion portion 1040, and installed on the skidway 400 using the wheel 80 of the mobile device 100.

   S3 step: moving the moving support device and the moving device stacked with the high load structure from the bottom of the skidway

   The hydraulic cylinder 211 of the support device 200 is advanced, and the movable support device 1000 and the movable device 100 on which the heavy loads are stacked are simultaneously lifted upward from the bottom surface of the skidway 400.

   S4 step: moving forward and backward of the moving support device in which the heavy load structure is stacked

   The wheel 213 of the support device 200 integrally mounted on the lower part of the moving device by pushing or pulling the moving device 100 with the transfer device 300 PUSH-PULL connected to the moving device 100 is a skidway 400. By being driven from the inner rail portion 420 of the) to move the moving support device 1000 in which the high load structure is stacked, forward and backward.
5. [5] The method of claim 4, wherein the following steps S5 to S8 are added to the steps S1 to S4 and the direction is changed in one of the transverse and longitudinal directions.

   Step S5: When the direction change point is reached, the mobile support device on which the heavy load structure is stacked is seated on the floor

   When the moving support device 1000 in which the heavy load structure moved in either the transverse direction or the longitudinal direction is stacked in the step S4 reaches the direction change point, the support device is integrally mounted on the lower part of the moving device 100. By moving the hydraulic cylinder 211 of the back (200), the moving support device 1000 in which the high load structure is stacked is seated on the ground.

   Step S6: withdrawal of the mobile device installed in the insertion unit of the moving support device and re-installation of the mobile device in the insertion unit opposite to the insertion unit

   The skidway is inserted into the insertion portion 1040 of the moving support device 1000 of the step S2.

   Using the wheel 80 of the mobile device 100, the support device 100 installed on the 400 is integrally blocked using the wheel 80 of the mobile device 100 to move and withdraw the mobile device 100 installed on the skidway to the outside And, the withdrawal of the moving device is inserted into the moving device 100 of the step S2 is inserted

   The skidway 400 is installed in the opposite direction to the inserting portion 1040 and the moving device 200 in which the support device is integrally blocked is inserted into the inserting portion 400 provided in the opposite direction to the skidway 400. Re-install using the wheel 80 of the mobile device (100).

   S7 step: the other direction of the shifting movement step of the moving support device stacked high-load structure

   By repeating the steps S3 to S4, the moving support device 1000 in which the heavy load structure moved in either the transverse direction or the longitudinal direction of the step S4 is stacked is shifted to the other direction.

   Step S8: Settling the floor of the mobile support device on which the heavy load structure is stacked and withdrawing the external device of the mobile device

   When the moving support device 1000 in which the heavy load structure is stacked reaches the moving destination, the hydraulic cylinder 211 of the supporting device 200 mounted on the moving device 100 is reversed to support the moving support in which the heavy load structure is stacked. The device 1000 is seated on the ground, and after the seating, the mobile device 100 is moved and withdrawn from the skidway 400 by using the wheel 80 of the mobile device 100.

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