KR100713787B1 - The underground structure assembly and the underground structure building method which it uses - Google Patents

Abstract

The present invention is to install a reinforcing member so as to be able to support a variety of external forces acting on the steel pipe in a state in which a plurality of steel pipes are pressed in the position to be excavated to build underground structures such as sewage culvert, underground driveway or tunnel structure After the beam assembly is installed on the plurality of steel pipes, the excavation is carried out for all sections in which the underground structure is to be constructed first, and the reinforcement is performed on the floor, the left and right both walls and the upper part in the state of removing soil, and the concrete is poured into the basement. An underground structure assembly for constructing a structure and an underground structure construction method using the same.

Underground Structures, 1st, 2nd, 3rd Steel Pipe Assemblies, Beam Assemblies

Description

The underground structure assembly and the underground structure building method which it uses}

1 shows an underground structure assembly according to the invention.

Figure 2 is a flow chart illustrating a method for constructing underground structures according to the present invention.

Figure 3a to 3c is a view showing a steel pipe press-preparation operation step by the underground structure construction method according to the present invention.

Figure 4 is a view showing a grouting reinforcement step by the method for building underground structures according to the present invention.

5a to 5e is a view showing a steel pipe reinforcement step by the underground structure construction method according to the present invention.

6a to 6b is a view showing a beam assembly installation step by the underground structure construction method according to the present invention.

7 is a view illustrating a beam reinforcement step by the method for constructing an underground structure according to the present invention.

8a to 8c is a view showing the concrete pouring step by the method of building the underground structure according to the present invention.

9 is a view showing a state in which the installation of the underground structure assembly is completed by the method for building underground structures according to the present invention.

* Description of the symbols for the main parts of the drawings *

20,20 ': Steel pipe 22,22': Slot hole

30 connection plate 40 reinforcement member

42: first reinforcing member 44: length adjustment unit

46: second reinforcing member 48: stiffener

100,200,300: 1, 2, 3 steel pipe assembly 400: beam assembly

412: reinforcing beam member

The present invention is to press-install a plurality of steel pipes in the position to be excavated in order to build underground structures such as sewage culvert, underground driveway or tunnel structure, but by installing a reinforcing member inside the steel pipe by various external forces acting on the steel pipe The present invention relates to an underground structure assembly capable of preventing deformation and performing rapid work, and a method for constructing an underground structure using the same.

In general, in order to install the underground structure, the structural work is performed after the structural calculation so as to sufficiently support the various stresses applied to the outside of the location where the underground structure is to be constructed.

Conventionally, in order to build the above-described underground structure, a large number of large diameter steel pipes are pressed into the ground and concrete is poured into the steel pipes, and after the curing of the poured concrete is completed, excavation is carried out to the depth that can be excavated.

The conventional underground structure construction proceeds as described above, the work space for reinforcing steel assembly and concrete placement after installing the formwork in the steel pipe is narrow, the work environment of the worker worsens, the problem of air delay and the increase in construction cost This occurred.

In addition, when curing of concrete takes too much time to complete, the overall working air becomes long, and when the ground is weak during the excavation, there is a high risk of ground or rock collapse or fall, so the risk of a safety accident has always been high. .

Therefore, it is difficult to efficiently use manpower and equipment between tasks, and there are various problems such as a risk of safety accidents.

The present invention has been made in order to solve the above problems, by installing a reinforcing member to prevent deformation in a number of steel pipes that are pressurized in the ground to minimize the occurrence of deformation of the steel pipe, and to excavate preferentially for all sections to be excavated After all the concrete is carried out, the purpose is to provide a fast and structurally safe underground structure assembly and underground construction method using the same, regardless of the ground state of the steel pipe is pressed by concrete pouring.

In order to achieve the above object, the underground structure assembly according to the present invention is provided with a plurality of steel pipes which are pressed in the ground to build underground structures such as underground roadways or tunnel structures, which are spaced apart along the longitudinal direction of the steel pipes. A connecting plate inserted into a slot hole in a transverse direction and inserted into a slot hole of another steel pipe pressed adjacent to the steel pipe, and a reinforcing member installed on an inner upper surface of the steel pipe to support external force acting on the steel pipe; It is provided with a first steel pipe assembly comprising a.

A plurality of steel pipes are respectively installed at both ends of the first steel pipe assembly in the longitudinal direction, and are inserted in the longitudinal direction on slot holes formed along the longitudinal direction of the steel pipe, and are inserted into the slot holes of another steel pipe adjacent to the steel pipe. A second and third steel pipe assembly including a connection plate inserted into and installed in the upper surface of the steel pipe to support the external force acting on the steel pipe; And a first beam member installed in close contact with an upper side of the insertion hole cut along a lower side of the slot hole formed in the steel pipe of the first steel pipe assembly, and a second installed upright along the cut insertion hole of the second and third steel pipe assemblies. And a beam assembly including a third beam member and a fourth beam member horizontally connected to both lower ends of the second and third beam members.

The reinforcing member is a first reinforcing member having a curvature similar to the curvature of the inner surface of the steel pipe so as to be able to support the external force acting on the steel pipe, and both ends are supported on both lower ends of the first reinforcing member, both ends supported in a horizontal direction A length adjusting part which is variable in length, and a second reinforcing member installed between the first reinforcing member and the length adjusting part and both ends of which are fixed on the first reinforcing part, and one end of which is fixed to the lower side of the connecting plate. The other end includes a stiffener fixed to an outer surface of the first, second, third and fourth beam members to support against an external force acting on the steel pipe.

The length adjusting part has one end portion supported at one lower end of the first reinforcing member and extends to the inner center of the steel pipe, and has a rod-shaped first adjusting portion formed with a screw line on the other end portion, and one end portion at the other lower end of the first reinforcing member. A rod-shaped second adjusting part which is supported and extends to an inner center of the steel pipe and has a screw line formed on the other end thereof, and is connected to the other end of the first adjusting part and the second adjusting part to be installed along the direction of rotation. The adjusting unit is configured to include a control unit provided to make the length adjustment in the horizontal direction.

The first beam member is configured to include a reinforcement beam member having one end installed in close contact with the lower side of the first beam member, extending toward the bottom, and supported on the bottom surface of the underground structure on which the other end is to be constructed.

The steel pipe provided in the first, second and third steel pipe assemblies is configured such that the lower portion of the steel pipe is cut after the reinforcing beam member is installed.

Underground structure construction method using the underground structure assembly according to the present invention is configured as described above is ready to press the steel pipe to carry out the necessary operations for the construction of the propulsion base and the steel pipe indentation in the planned position to install the underground structure for people or vehicles to pass through Working steps; A steel pipe press-in step of press-fitting a plurality of upper steel pipes in a transverse direction to an upper side of a position where an underground structure is to be installed, and press-fitting side wall steel pipes to both left and right sides of the upper steel pipe; A steel pipe reinforcing step of installing a reinforcing member on the inside of the steel pipe so as to be able to support various external forces applied to the pressed steel pipe; A beam assembly installation step of drilling a lower portion of the press-fitted steel pipe and cutting the inside of the steel pipe at a position where the beam assembly is to be inserted so that the beam assembly can be installed inside the steel pipe, and then installing the beam assembly; An internal excavation step of carrying out excavation for all sections in which underground structures are to be constructed by mobilizing heavy equipment after the beam assembly is installed; And after the internal excavation is completed, the lower portion of the steel pipe is cut all, and a concrete placing step of placing the reinforcement and concrete on the floor and the left and right sides and the upper side where the underground structure will be constructed.

The steel pipe indentation step includes a grouting reinforcing step of reinforcing the ground by performing grouting to the outside of the steel pipe when the ground in which the indentation is made is a soft ground or a ground change easily.

The steel pipe reinforcing step includes a first steel pipe reinforcing step of installing a reinforcing member on the inner upper part of the pressurized upper steel pipe and the side wall steel pipe, and cutting the slot into a slot shape along the side of the steel pipe in which the reinforcing member is installed, and then inserting a connection plate to And a second steel pipe reinforcement step of connecting and fixing one steel pipe to each other.
The steel pipe reinforcing step includes a third steel pipe reinforcing step of supporting and reinforcing both end portions of the upper portion of the steel pipe using a plate-shaped stiffner.

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The beam assembly installation step may include a beam reinforcement step of supporting and reinforcing the upper steel pipe by closely installing a reinforcing beam member under the upper steel pipe.

A preferred embodiment of the present invention configured as described above will be described with reference to the drawings.

1 is a view showing an underground structure assembly according to the present invention, Figure 2 is a flow chart showing a method for constructing an underground structure according to the present invention, Figures 3a to 3c is a steel pipe according to the underground structure construction method according to the present invention Figure 4 is a view showing a pre-indentation preparation step, Figure 4 is a view showing a grouting reinforcement step by the underground structure construction method according to the present invention, Figures 5a to 5e is a steel pipe reinforcement by the underground structure construction method according to the present invention. 6A through 6B are diagrams illustrating a beam assembly installation step according to the method for constructing an underground structure according to the present invention, and FIG. 7 illustrates a beam reinforcement step according to the method for constructing an underground structure according to the present invention. 8a to 8c is a view showing a concrete pouring step by the method of building underground structures according to the present invention, Figure 9 is a view according to the present invention Figure is a view showing a state in which the installation of the underground structure assembly is completed by the underground structure construction method.

Referring to FIG. 1, in the underground structure assembly 1 according to the present invention, a plurality of steel pipes 20 press-fitted into the ground to build underground structures such as underground roadways or tunnel structures are installed in a transverse direction, but the steel pipes Inserted in the transverse direction on the slot hole 22 formed spaced apart along the longitudinal direction of the (20) is inserted into the slot hole 22 'of another steel pipe 20' pressed in the neighboring the steel pipe 20 The first steel pipe assembly 100 including a connecting plate 30 and a reinforcing member 40 installed on an inner upper surface of the steel pipe 20 so as to be able to support the external force acting on the steel pipe 20. .

 A plurality of steel pipes 20 are respectively installed in the longitudinal direction at both ends of the first steel pipe assembly 100, and are inserted in the longitudinal direction on the slot holes 22 formed along the longitudinal direction of the steel pipe 20. The connection pipe 30 is inserted into the slot hole 22 'of another steel pipe 20' press-fitted adjacent to the steel pipe 20, and the steel pipe so as to support the external force acting on the steel pipe 20 Second and third steel pipe assembly (200, 300) including a reinforcing member 40 is installed on the inner upper surface of the; And a first beam member 410 installed in close contact with an upper side of the insertion hole cut along the lower side of the slot hole 22 formed in the steel pipe 20 of the first steel pipe assembly 100, and the second and third steel pipe assemblies. Second and third beam members 420 and 430 installed upright along the cut insertion holes of the 200 and 300, and fourth beam members installed horizontally in connection with both lower ends of the second and third beam members 420 and 430. And a beam assembly 400 provided with 440.

The reinforcing member 40 is a first reinforcing member 42 having a curvature similar to the curvature of the inner surface of the steel pipe so as to be able to support the external force acting on the steel pipe 20, and the lower end of both sides of the first reinforcing member 42 Both ends are supported at each end, and the length adjusting part 44 having both ends supported in the horizontal direction is variable, and is installed between the first reinforcing member 42 and the length adjusting part 44, and both ends thereof are the first reinforcing members. The second reinforcing member 46 fixedly installed on the 42 and one end is fixed to the lower side of the connecting plate 30 and the other end is fixed to the outer surface of the first, second, third and fourth beam members 410, 420, 430, 440 And a stiffener 48 for supporting against an external force acting on the steel pipe 20. The stiffener 48 is formed in the form of a plate.

The length adjusting part 44 has one end portion supported on one lower end of the first reinforcing member 42 and extends to the inner center of the steel pipe, and has a rod-shaped first adjusting portion 44a having a screw line formed on the other end thereof. One end portion of the first reinforcing member 42 is supported at one end of the rod and extends to the inner center of the steel pipe 20, and has a rod-shaped second adjusting portion 44b having a screw line formed at the other end thereof, and the first adjusting portion. Adjusting means (44c) is provided on the other end of the 44a and the second adjusting portion (44b) is provided so that the length adjustment in the horizontal direction of the first and second adjusting portions (44a, 44b) in accordance with the rotation direction It is configured to include.

One end of the first beam member 410 is closely attached to the lower side of the first beam member 410 is formed to extend toward the bottom and the other end of the reinforcement beam member 412 is supported on the bottom surface of the underground structure to be built It is configured to be provided.

The steel pipe 20 provided in the first, second, and third steel pipe assemblies 100, 200, and 300 is configured such that a lower portion of the steel pipe 20 is cut after the reinforcing beam member 412 is installed.

Underground structure construction method using the underground structure assembly according to the present invention is configured as described above is ready to press the steel pipe to carry out the necessary operations for the construction of the propulsion base and the steel pipe indentation in the planned position to install the underground structure for people or vehicles to pass through A work step ST100; A steel pipe press-fitting step (ST200) for press-fitting a plurality of upper steel pipes in a transverse direction to an upper side of a location where the underground structure is to be installed, and press-fitting side wall steel pipes to both left and right sides of the upper steel pipe; A steel pipe reinforcing step of installing a reinforcing member on the inner side of the steel pipe so as to be able to support various external forces applied to the press-fitted steel pipe (ST300); A beam assembly installation step of excavating the lower portion of the press-fitted steel pipe and cutting the inside of the steel pipe in accordance with the position where the beam assembly is to be inserted so that the beam assembly can be installed into the inside of the steel pipe (ST400) )Wow; An internal excavation step (ST500) for carrying out excavation for all sections in which underground structures are to be constructed by mobilizing heavy equipment after the beam assembly is installed; And after the completion of the internal excavation is completed, including cutting all of the lower portion of the steel pipe, the concrete placing step (ST600) for placing the reinforcement and concrete on the floor and left and right sides and the upper side where the underground structure is to be built.

The steel pipe indentation step (ST200) comprises a grouting reinforcement step (ST220) for reinforcing the ground by performing grouting to the outside of the steel pipe when the ground in which the indentation is easy to make a soft ground or ground change do.

The steel pipe reinforcing step (ST300) is a first steel pipe reinforcing step (ST320) for installing a reinforcing member on the inner upper portion of the pressurized upper and side wall steel pipe, and after cutting in the form of a slot along the side of the steel pipe is installed It is configured to include a second steel pipe reinforcement step (ST340) for connecting and fixing the mutual connection with the adjacent steel pipe by inserting the connection plate.

The steel pipe reinforcement step ST300 includes a third steel pipe reinforcement step ST360 for supporting and reinforcing both ends of the upper portion of the upper portion of the steel pipe using a plate-shaped stiffner.

The beam assembly installation step (ST400) is configured to include a beam reinforcing step (ST420) to support and reinforce the upper steel pipe is installed in close contact with the lower portion of the upper steel pipe.

Preferred embodiments of the underground structure assembly according to the present invention as described above and the underground structure construction method using the same will be described in detail with reference to the drawings.

With reference to the accompanying Figures 3a to 3c will be described the step of preparing the steel pipe indentation by the underground structure construction method according to the present invention.

Referring to FIGS. 3A to 3C, steel pipes are inserted to perform various operations required for the construction of a propulsion base and the press-fitting of steel pipes at a location where the underground structure is to be installed (ST100). And propulsion rails.

The operator surveys the position of the steel pipe to be press-fitted while the steel pipe is placed on the installed propulsion rail and repeatedly performs the steel pipe press-fitting and excavation work using a hydraulic jack at a position where the underground structure is to be installed.

Referring to FIG. 4, as shown in the drawing, a plurality of upper steel pipes 20 and side wall steel pipes are pressed in the horizontal direction on the upper side of the location where the underground structure is to be built (ST200). If the ground in which the indentation is made is a soft ground or the ground is easy to change, the ground is reinforced by grouting to the outside of the press-fitted steel pipe 20 (ST220). When the grouting is carried out as described above, the outer space of the press-fitted steel pipe 20 may be structurally reinforced by empty space or soft ground, which may be present, to maintain a stable press-fit state of the steel pipe.

Referring to FIG. 5A, a reinforcing member 40 is installed inside the steel pipe 20 so as to be able to support various external forces acting on the plurality of steel pipes 20 pressed after grouting as described above. To reinforce the steel pipe (ST300). The reinforcing member 40 is all installed inside the plurality of steel pipes 20 provided in the first, second, and third steel pipe assemblies 100, 200, and 300.

Looking at the installation state of the reinforcing member 40 is as follows.

5B to 5C, the first reinforcing member 42 is installed on the inner upper surface of the steel pipe 20 in a state where an operator (not shown) enters the steel pipe 20 (ST320).

Where both ends of the second reinforcing member 46 in a state where the first reinforcing member 42 is installed correspond to 1/2 height (1 / 2H) of the vertical height H of the first reinforcing member 42. Install.

Then, in the state in which the first and second adjusting portions 44a and 44b of the length adjusting portion 44 are inserted into the insertion holes 54 of the support socket 50, respectively, the adjusting opening 44c is rotated in the direction of the arrow to the above. One end of the first and second adjusting portions 44a and 44b moves toward the inside of the steel pipe 20 to stably support the external force applied to the steel pipe 20. (Unexplained reference numeral 52 is a plate member. to be.)

Steel pipe 20 due to various external forces (pressure due to grouting construction with a load by earth pressure) acting on the steel pipe 20 by the length adjusting portion 44 and the first and second reinforcing members 42 and 46 as described above. ) Is prevented in advance.

5D to 5E, as described above, after the reinforcing member 40 is installed in the plurality of steel pipes 20, the slot holes 22 and 22 ′ are formed along the longitudinal direction of the steel pipe 20. Cleavage is performed on the site to be formed. The slot holes 22 and 22 'may be cut using a welding torch along a previously marked position in a state where an operator enters into the steel pipe 20.

When the worker hits the hammer by using a hammer or a hammer in a state in which the connecting plate 30 is inserted into the slot hole 22 (dotted state) while being positioned inside the steel pipe 20, the inside of the slot hole 22 is used. Is inserted along the direction of the arrow (ST340) (solid line state).

As described above, the connection plate 30 is separately welded to the outside inserted into the slot hole 22 to block the inflow of soil between the steel pipe 20 and the steel pipe 20 'as much as possible. This operation is performed in the same way for the plurality of steel pipes 20 provided in the second and third steel pipe assemblies 200 and 300, and the excavation is performed at the bottom of the steel pipe 20.

As described above, the operator located inside the steel pipe 20 in the state where the connection plate 30 is installed may allow the first, second, third, and fourth beam members 410, 420, 430, 440 (see FIG. 1) to be installed into the steel pipe 20. The first, second, third, and fourth beam members 410, 420, 430, and 440 are cut in the steel pipe 20 in accordance with positions to be inserted. As shown in FIG. 5E, after the lower portion of the steel pipe 20 is cut, the beam assembly is installed using a separate device (ST400). Indicates)

The installation of the beam assembly will be described in more detail with reference to the attached FIGS. 6A-6B.

Referring to FIG. 6A, as described above, the first beam member 410 (see FIG. 1) is laterally cut in a state in which lower cutting of the steel pipe 20 provided in the first steel pipe assembly 100 is completed. Connection is installed.

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The first beam member 410 is installed above the position where the underground structure is to be constructed, the second and third beam members 420 and 430 are installed on both left and right sides of the underground structure, and the fourth beam member 440 is disposed on the floor. Is installed. In the steel pipe 20 in which the second and third beam members 420 and 430 are installed, the connecting plate 30 is similarly installed (ST340) and the connecting plate 30 is installed on the slot hole 22 (see FIG. 1). The lower side of the steel pipe 20 (dotted portion) is cut off.
In the state where the installation work for the first beam member 410 is completed as described above, a stiffener 48 (see FIG. 1) for supporting and reinforcing both ends of the upper portion of the steel pipe 20 is installed (ST360).
After the installation of the first beam member 410 is completed, the second and third beam members 420 and 430 and the fourth beam member 440 are continuously installed.

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An installation state of the reinforcing beam member will be described with reference to FIG. 7.

The reinforcing beam member 412 is installed in close contact with the lower side of the first beam member 410 and extends toward the bottom, and is supported and reinforced on the bottom surface of the underground structure on which the other end is to be constructed. A reinforcing plate is provided at a portion where the first beam member 410 and the reinforcing beam member 412 are connected to each other and is fixedly installed by a plurality of bolts and nuts.

After the beam member is installed as described above, excavation is performed for all sections in which the underground structure is constructed by mobilizing heavy equipment (ST500). The working progress direction is made in the direction of the arrow and performs all the excavation for the area in which the underground structure is to be built with one span between the first beam members 410 installed in the steel pipe 20.

With reference to the accompanying Figures 8a to 8c it will be described the concrete placing step by the underground structure construction method according to the present invention.

8A to 8C, the reinforcement is performed on the bottom, left and right sides, and the upper side of the entire excavation area, and the concrete is poured (ST600). In the case of concrete pouring, the concrete is poured in the order of left and right sides and top side first. The reinforcing beam member 412 is dismantled after all the concrete is finished pouring.

With reference to the accompanying Figure 9 will be described a state in which the installation of the underground structure assembly by the underground structure building method according to the present invention.

Referring to FIG. 9, when the curing of the concrete is completed, the reinforcing beam member 412 is dismantled and the reinforcing bars and other debris remaining on the bottom, left and right walls, and the upper wall are removed. The task is complete.

On the other hand, the present invention can be variously modified by those skilled in the art without departing from the gist of the invention.

As described above, the underground structure assembly and the underground structure construction method using the same according to the present invention are installed inside the steel pipe that is press-installed when constructing sewage culverts, underground roadways or tunnel structures, etc. Deformation of the steel pipe by and there is an effect that can minimize the stress deformation occurring in the steel pipe.

In addition, the construction of formwork on steel pipes, reinforcement and concrete placement work is improved when construction of underground structures is secured, and the safety of the workers is secured. There is an effect that can be built.

Claims (10)

In order to build an underground structure, such as an underground roadway or a tunnel structure, a plurality of steel pipes pressed into the ground are installed in the transverse direction, and are inserted in the transverse direction on slot holes formed along the longitudinal direction of the steel pipe and press-fitted adjacent to the steel pipes. A first steel pipe assembly including a connecting plate inserted into and inserted into a slot hole of another steel pipe, and a reinforcing member installed on an inner upper surface of the steel pipe to support an external force acting on the steel pipe; A plurality of steel pipes are respectively installed at both ends of the first steel pipe assembly in the longitudinal direction, and are inserted in the longitudinal direction on slot holes formed along the longitudinal direction of the steel pipe, and are inserted into the slot holes of another steel pipe adjacent to the steel pipe. A second and third steel pipe assembly including a connecting plate inserted into and installed on the inner upper surface of the steel pipe to support the external force acting on the steel pipe; And A first beam member installed in close contact with an upper side of the insertion hole cut along the lower side of the slot hole formed in the steel pipe of the first steel pipe assembly, and second and third installed upright along the cut insertion hole of the second and third steel pipe assemblies. And a beam assembly having a beam member and a fourth beam member connected to both lower ends of the second and third beam members and installed horizontally. The method of claim 1, The reinforcing member is a first reinforcing member having a curvature similar to the curvature of the inner surface of the steel pipe so as to be able to support the external force acting on the steel pipe, both ends are respectively supported on both lower ends of the first reinforcing member, and both ends supported in the horizontal direction A length adjusting part having a variable length, a second reinforcing member installed between the first reinforcing member and the length adjusting part, and both ends of which are fixed on the first reinforcing member, one end of which is fixed to the lower side of the connection plate, and the other end of which is An underground structure assembly comprising a stiffener fixed to an outer surface of a 1,2,3,4 beam member to support against an external force acting on the steel pipe. The method of claim 2, The length adjusting part has one end portion supported at one lower end of the first reinforcing member and extends to the inner center of the steel pipe, and has a rod-shaped first adjusting portion having a screw line formed at the other end thereof, and one end supporting the other lower end of the first reinforcing member. And a rod-shaped second adjusting portion extending from the inner center of the steel pipe and having a threaded line formed on the other end thereof, connected to the other ends of the first adjusting portion and the second adjusting portion, and the first and second adjusting portions according to the rotation direction. Underground structure assembly, characterized in that it comprises a control which is provided so that the length adjustment in the horizontal direction. The method of claim 1, Underground structure assembly, characterized in that the first beam member is provided with a reinforcing beam member, one end of which is installed in close contact with the lower side of the first beam member is formed to extend toward the bottom and the other end is supported on the bottom surface of the underground structure to be built . The method according to claim 1 or 4, The steel pipe provided in the first, second, third steel pipe assembly is an underground structure assembly, characterized in that the lower portion of the steel pipe is cut after the reinforcing beam member is installed. A steel pipe press preparation preparation step for carrying out various operations required for the construction of a propulsion base and the press-fitting of steel pipes at a location where an underground structure for a person or a vehicle to pass is installed; A steel pipe press-fitting step of press-fitting a plurality of upper steel pipes in a transverse direction to an upper side of a position where an underground structure is to be installed, and press-fitting side wall steel pipes to both left and right sides of the upper steel pipe; A steel pipe reinforcing step of installing a reinforcing member on the inside of the steel pipe to support various external forces applied to the pressed steel pipe; A beam assembly installation step of drilling a lower portion of the press-fitted steel pipe and cutting the inside of the steel pipe in a position where the beam assembly is to be inserted so that the beam assembly can be installed inside the steel pipe, and then installing the beam assembly; An internal excavation step of carrying out excavation for all sections in which underground structures are to be constructed by mobilizing heavy equipment after the beam assembly is installed; And After the internal excavation is completed, all of the lower part of the steel pipe is cut, and the underground structure assembly comprises a concrete placing step of placing reinforcement and concrete on the floor and left and right sides and the upper side to be built How to build a structure. The method of claim 6, The steel pipe indentation step is an underground structure, characterized in that it comprises a grouting reinforcement step of reinforcing the ground by performing a grouting to the outside of the steel pipe when the ground is pressurized is a soft ground or ground change is easy to make state Method of constructing a structure of an assembly. The method of claim 6, The steel pipe reinforcing step is a first steel pipe reinforcing step of installing a reinforcing member on the inner upper portion of the pressurized upper steel pipe and the side wall steel pipe, after cutting into a slot shape along the side of the steel pipe in which the reinforcing member is installed is inserted into the neighboring plate And a second steel pipe reinforcing step of connecting and fixing the steel pipe to and from each other. The method according to claim 6 or 8, The steel pipe reinforcing step includes a third steel pipe reinforcing step of supporting and reinforcing both ends of the upper portion of the upper portion of the steel pipe using a plate-shaped stiffener (Stiffner) structure structure method of the underground structure assembly. The method of claim 6, The beam assembly installation step of the structure construction method of the underground structure assembly characterized in that it comprises a beam reinforcing step is installed in close contact with the reinforcement beam member in the lower portion of the upper steel pipe to support and reinforce the upper steel pipe.

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