KR100910575B1 - Steel pile wall construction method - Google Patents

Abstract

The present invention relates to a wall steel pipe construction method comprising the steps of: installing a plurality of foundation piles on the ground; Installing a jig jacket having a steel pipe alignment portion in which the plurality of steel pipes are arranged in a line, on the foundation pile; Placing the plurality of steel pipes in a line in the steel pipe alignment unit and standing on the ground; Installing a jacket supporter on the steel pipe standing up on the ground to support the jig jacket to be movable; Removing the foundation pile from the jig jacket; Moving the jig jacket along an alignment direction of the steel pipe; And aligning the new steel pipe with the steel pipe alignment unit out of the steel pipe installed in the ground among the plurality of steel pipe alignment units of the moved jig jacket, and standing up the ground. As a result, the steel pipe can be constructed continuously and accurately, and the working time can be shortened.

Steel pipe, jig jacket

Description

Steel pile wall construction method

The present invention relates to a wall steel pipe construction method, and more particularly to a wall steel pipe construction method for forming a wall using a plurality of steel pipes.

In general, an eyepiece is a facility that allows a boat to be safely and easily landed. The wall steel pipe using a plurality of steel pipes is used as the basis of such an eyepiece facility.

Wall steel pipe is a wall provided by a continuous construction of a plurality of steel pipes to expand the eyepiece facility. Since the ground of the part where steel pipes are normally constructed is fragile, it is impossible to work on a crane adjacent to an existing pier. Therefore, in order to continuously construct the steel pipes, each jig jacket had to be installed at sea to correspond to each steel pipe.

However, the conventional wall steel pipe construction method is not easy to install the steel pipe continuously, there is a problem that the work time is delayed.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for constructing a wall steel pipe which can construct a steel pipe accurately and easily continuously and can shorten working time.

According to the present invention, a wall steel pipe construction method for forming a wall using a plurality of steel pipes, comprising the steps of: installing a plurality of foundation piles on the ground; Installing a jig jacket having a steel pipe alignment portion in which the plurality of steel pipes are arranged in a line, on the foundation pile; Placing the plurality of steel pipes in a line in the steel pipe alignment unit and standing on the ground; Installing a jacket supporter on the steel pipe standing up on the ground to support the jig jacket to be movable; Removing the foundation pile from the jig jacket; Moving the jig jacket along an alignment direction of the steel pipe; And aligning the new steel pipe with the steel pipe alignment part out of the steel pipe installed on the ground among the plurality of steel pipe alignment parts of the moved jig jacket and standing up on the ground.

One of the pair of steel pipes adjacent to each other is provided with a guide portion along the longitudinal direction, the other is preferably provided with a guide rail for slidding the guide portion.

The jacket support is preferably provided with a rod extending along the radial direction from the outer peripheral surface of the steel pipe.

The rod may be provided to rotate about an axis.

It is preferable to further include a guide frame coupled to the jig jacket to support the outer periphery of the steel pipe to improve the verticality during the installation of the steel pipe.

According to the present invention, it is possible to provide a steel pipe construction method that can be continuously and precisely and easily, and can shorten the working time.

Prior to the description, in the present description will be described by taking the case of installing the wall steel pipe to the sea as an example, the wall steel pipe construction method according to the present invention will be found in advance that can be applied to the construction of the wall steel pipe on the ground.

The wall steel pipe construction method according to the present invention comprises the steps of installing a plurality of foundation piles 10 on the ground, the step of coupling the jig jacket 20 to the foundation piles 10 installed on the ground, jig jacket 20 Installing a steel pipe (30) on the ground by using the method, installing a jacket support (40) on the steel pipe (30) installed on the ground, removing the foundation pile (10) from the jig jacket (20), Moving the jig jacket 20 along the alignment direction of the steel pipe 30, and installing the other steel pipe 30 in the ground using the moved jig jacket 20.

First, as shown in FIG. 1, the foundation pile 10 is installed in the ground. The foundation pile 10 is installed on the ground so that the jig jacket 20 is disposed above the sea level to support the jig jacket 20. In the present embodiment, the foundation pile 10 is provided as an H-pile, and is provided in four, as shown in FIG. 1 to efficiently support the jig jacket 20. However, the number of the foundation piles 10 may be provided in three or less, or may be provided in five or more.

As shown in FIG. 1, after the foundation pile 10 is installed on the ground, a jig jacket 20 having a plurality of steel pipe alignment units 25 is coupled to the foundation pile 10. The jig jacket 20 is coupled to the upper region of the foundation pile 10. The jig jacket 20 is provided with a steel pipe alignment portion 25. In the present embodiment, the jig jacket 20 is provided to install four steel pipes 30 along the alignment direction of the steel pipes 30. However, the steel pipe alignment unit 25 may be provided to install three or less steel pipes 30, or may be provided to install five or more steel pipes (30).

After the jig jacket 20 is coupled to the foundation pile 10, as shown in FIG. 2, a steel pipe 30 is installed in the ground. The steel pipe 30 used in the present invention is provided in a cylindrical shape although not limited in shape, and is continuously installed at sea. The plurality of steel pipes 30 are continuously installed in a row to form a wall at sea.

When the steel pipe 30 is inserted into the steel pipe alignment portion 25 of the jig jacket 20, the jig jacket 20 supports the outer circumference of the steel pipe 30 and improves the verticality when the steel pipe 30 is installed. Guide frame 50 is installed to make. The guide frame 50 is detachably coupled to the jig jacket 20 so as to correspond to the steel pipe alignment unit 25 into which the steel pipe 30 is inserted. Thus, by providing the guide frame 50 to the jig jacket 20 detachably, it is not necessary to provide the guide frame 50 in all the steel pipe alignment portion 25 it is possible to reduce the manufacturing cost.

Meanwhile, the peripheral area of the guide frame 50 into which the steel pipe 30 is inserted in the jig jacket 20 may be used as a work space. Here, the jig jacket 20 is coupled to the work table of the mesh or panel shape.

As illustrated in FIG. 6, the guide part 60 and the guide rail 70 are provided to face each other along the longitudinal direction of the steel pipe 30 on the outer circumferential surface of the steel pipe 30. In detail, the guide unit 60 and the guide rail 70 prevent the pair of steel pipes 30 installed adjacent to be separated from each other in a coupled state. In addition, when the guide unit 60 and the guide rail 70 couples the new steel pipe 30 to the steel pipe 30 installed on the ground, the new steel pipe 30 can be guided to maintain the verticality.

The guide unit 60 is provided along one of the pair of steel pipes 30 adjacent to each other along the length direction. In the present embodiment, the guide part 60 is provided by welding the T-shaped steel to the outer circumferential surface of the steel pipe 30.

The guide rail 70 is provided along the lengthwise direction of the other one of the pair of steel pipes 30 which are adjacently installed to guide the sliding guide 60. In this embodiment, the guide rail 70 is provided is welded to the outer circumferential surface of the steel pipe 30 so that a pair of L-shaped steel is opposed to each other so that the guide portion 60 is accommodated and sliding movement.

Looking at the installation process of the steel pipe 30 in more detail, the guide frame 50 is mounted on the first steel pipe alignment unit 25 and the steel pipe 30 is installed on the ground. In addition, the guide frame 50 is mounted on the second steel pipe alignment unit 25, and the guide unit 60 of the new steel pipe 30 is inserted into the guide rail 70 of the steel pipe 30 installed on the ground, thereby sliding sliding. Let's do it. By performing this process continuously, as shown in FIG. 3, steel pipes 30 are continuously installed to correspond to the number of steel pipe alignment units 25.

Then, as shown in Figure 4, the jacket support portion 40 for supporting the jig jacket 20 is installed in the steel pipe 30 installed on the ground. The jacket support part 40 protrudes from the outer peripheral surface of the steel pipe 30 toward the horizontal direction of the alignment direction of the steel pipe 30. In this embodiment, the jacket support 40 is provided in pairs to face each other in the radial direction of each steel pipe (30).

The jacket support 40 is provided with a rod extending along the radial direction from the outer circumferential surface of the steel pipe. In this embodiment, the jacket support 40 is provided by welding the H-pile on the outer peripheral surface of the steel pipe (30). On the other hand, the jacket support 40 may be provided to rotate around the axis so that the jig jacket 20 is easy to move.

After installing the jacket support 40 on the steel pipe 30, the foundation pile 10 coupled to the jig jacket 20 is removed. Here, the jig jacket 20 is supported by the jacket support portion 40 provided in the steel pipe 30 so that it does not fall.

After removing the foundation pile 10, the jig jacket 20 is moved along the alignment direction of the steel pipe (30). Here, the jig jacket 20 is supported by the jacket support part 40, and the jacket support part 40 rotates, so that the jig jacket 20 can be easily moved.

When the jig jacket 20 is moved, as shown in FIG. 4, the jig jacket 20 is moved by a distance corresponding to the width of the steel pipe alignment unit 25. Then, a new steel pipe 30 is inserted into the ground by arranging the new steel pipe 30 in the steel pipe alignment portion 25 which is out of the steel pipe 30 installed on the ground among the plurality of steel pipe alignment portions 25 of the jig jacket 20 that is moved. Here, as described above, the guide rail 60 of the new steel pipe 30 is inserted and installed in the guide rail 70 of the steel pipe 30 installed on the ground, as shown in FIGS. 5 and 6.

After installing the jacket support part 40 on the newly installed steel pipe 30, the jig jacket 20 is moved along the alignment direction of the steel pipe 30. Then, another new steel pipe 30 is installed by using the moved jig jacket 20. By repeating this process, a plurality of steel pipes 30 are continuously installed. Accordingly, the plurality of steel pipes 30 can be easily and continuously installed, and the work time for constructing the plurality of steel pipes 30 can be reduced.

On the other hand, in the continuous installation of the plurality of steel pipes 30, the guide rails of the steel pipes 30 to be newly installed on the guide rail 70 of the steel pipes 30 installed on the ground, but the above-mentioned, The guide rail 70 of the steel pipe 30 to be newly installed may be coupled to the guide part 60 of the steel pipe 30 installed on the ground without being limited thereto.

As described above, the foundation pile 10 is installed on the ground, the jig jacket 20 is coupled to the foundation pile 10, the steel pipe 30 is installed on the ground using the jig jacket 20, The jacket support 40 is installed in the steel pipe 30, the foundation pile 10 is removed from the jig jacket 20, the jig jacket 20 is moved along the alignment direction of the steel pipe 30, and a new steel pipe ( By installing 30) on the ground, the plurality of steel pipes 30 can be easily and simply installed continuously. In addition, since the foundation pile 10 only needs to be installed once at the beginning of construction, it is possible to reduce costs and shorten the construction period in installing the steel pipe 30. In addition, the free space of the jig jacket 20 may be used as a work space to smoothly perform the work.

1 to 5 is a view showing a process of continuously installing the steel pipe by applying the wall steel pipe construction method according to the present invention,

6 is a view showing that a pair of adjacent steel pipes in the method for constructing a wall steel pipe according to the present invention are coupled by a guide part and a guide rail.

Explanation of symbols on the main parts of the drawings

10: Foundation File 20: Jig Jacket

25: steel pipe alignment unit 30: steel pipe

40: jacket support 50: guide frame

60: guide portion 70: guide rail

Claims (5)

In the wall steel pipe construction method of forming a wall using a plurality of steel pipes, Installing a plurality of basic files on the ground; Installing a jig jacket having a steel pipe alignment portion in which the plurality of steel pipes are arranged in a line, on the foundation pile; Placing the plurality of steel pipes in a line in the steel pipe alignment unit and standing on the ground; Installing a jacket supporter on the steel pipe standing up on the ground to support the jig jacket to be movable; Removing the foundation pile from the jig jacket; Moving the jig jacket along an alignment direction of the steel pipe; And arranging a new steel pipe in a steel pipe alignment part out of the steel pipe installed in the ground among the plurality of steel pipe alignment parts of the moved jig jacket, and installing the steel pipe in a standing position on the ground. The method of claim 1, The steel pipe construction method, characterized in that the guide portion along the longitudinal direction, and the guide rail for sliding the guide portion is provided to face each other. The method of claim 2, The jacket support is a wall steel pipe construction method, characterized in that provided with a rod extending in the radial direction from the outer peripheral surface of the steel pipe. The method of claim 3, The rod is a steel pipe construction method, characterized in that provided to rotate around the axis. The method according to any one of claims 1 to 4, And a guide frame coupled to the jig jacket to support an outer circumference of the steel pipe to improve verticality during installation of the steel pipe.

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