KR20090100867A - The method construction work and unit metal tubing constructing system for the road underground driveway - Google Patents

Abstract

PURPOSE: An excavating apparatus and a construction method of unit steel pipes for underground driveway are provided to perform construction without interference by vehicles passing through a driveway. CONSTITUTION: An excavating apparatus of unit steel pipes for underground driveway comprises first through third circular steel pipes(10,11,12), a rectangular unit steel pipe(20), an excavation steel plate, and a hydraulic cylinder. The first through third circular steel pipes one or more cut-out parts(13) and reinforcing fleshes(14). The rectangular unit steel pipe is connected between the first through third circular steel pipes. The excavation steel plate has an excavating blade to excavate the ground at the upper end of a top plate(21) of the rectangular unit steel pipe. The hydraulic cylinder is connected between the bottom of the top plate and the front bottom of the excavation steel plate and excavates the ground by advancing the excavation steel plate.

Description

The method construction work and unit metal tubing constructing system for the road underground driveway}

The present invention relates to a tunnel excavation unit steel pipe for constructing a driveway or an underground walkway in a basement of a highway, an automobile-only road, and more specifically, an earth and sand layer between an upper road surface and a tunnel ceiling excavated when an underground road or an underground walkway is constructed. Multiple circular steel pipes are installed at regular intervals and rectangular unit steel pipes are installed between the circular steel pipe and the circular steel pipe to secure the foundation excavation space. According to the present invention, the press-fitting of the rectangular unit steel pipe is made by the horizontal propulsion method to support the earth pressure load of the upper portion as it is, and to secure the tunnel excavation support structure for excavating the underpass, so that the underpass can be safely excavated. Installation of rectangular unit steel pipe in one time. It is about the unit steel pipe excavation device and construction method for underground roadway construction to allow the tunnel wall to be constructed at the same time after completion.

Conventionally, various construction methods have been applied to construct underground roadways, underground walkways, and underground passages that cross railroads, highways, and national roads.

In the conventional excavation method, a temporary road is installed by bypassing one side of a road that is typically intended to be constructed, and a concrete structure is installed by installing a formwork by cutting a part that is intended to construct an underground road or an underground walkway, and then installing an original roadway. Underground roads and underground walkways were constructed as restoration methods. The above construction method requires the installation of a separate bypass road to install an underground roadway or an underground walkway. The construction method of constructing concrete structures after cutting an existing road has a long air problem. There are a lot of problems, such as giving inconvenience to the traffic of the vehicle during construction.

In recent years, there is a horizontal propulsion method using a steel pipe without cutting an existing road when constructing an underground road or an underground walkway. The horizontal propulsion method is a parallel method in which a steel pipe is pressed into the ground while digging the ground. The general structure of the steel pipe propeller is to install the steel pipe propeller against the reaction wall on the propulsion machine rail and to propel the steel pipe in the ground by a drill auger with a head bit formed at the tip. The rigidity of the steel pipe is increased by filling concrete mortar with the hollow part of the steel pipe pressed into the ground. The connection between the steel pipe and the steel pipe is made by an angle joint. The angle joint is for allowing the steel pipe to move in one piece. However, compared with the rigidity of the steel pipe filled with concrete, the rigidity of the angle joint is vulnerable to integral behavior of the entire steel pipe.

Therefore, in the past, concrete must be poured to the inside of the steel pipe installed with a predetermined thickness to cure, and then the ground must be excavated. Therefore, the road is not cut to construct the underground road or underground walkway, but the ground support structure must be installed twice. There is this.

The present invention is to solve such a problem, when the excavation construction of the driveway or underground walkway in the basement of the highway, car-only road to form a plurality of circular steel pipe and rectangular unit steel pipe to secure the foundation excavation space portion Using the horizontal propulsion method to simultaneously construct and support the tunnel wall of the structure and the supporting structure, and to promote and excavate the unit steel pipe simultaneously, and to excavate the underground road while the unit steel pipe supports the earth pressure of the upper part as it is. Unit steel pipe excavation device and construction for underground roadway construction for the purpose of securing underground tunnels safely and quickly under the road surface operating without installing separate bypass roads when securing the space part It was to provide a way.

The present invention provides a first, second and third circular steel pipe having one or more incisions and a reinforcement formed therein: a rectangular unit steel pipe installed to be connected between the first, second and third circular steel pipes; An excavation steel sheet having an excavation blade to excavate the ground at the upper end of the upper surface of the rectangular unit steel pipe formed of the upper plate and the lower plate; A hydraulic cylinder, one end of which is connected to the bottom of the upper plate and the other end of which is connected to the lower end of the front of the excavation steel sheet so that the ground can be excavated by advancing the excavation steel plate forward; The drilled steel sheet is formed such that a plurality of guide balls are formed so that the guide balls are inserted into the guide pins formed on the upper surface of the upper plate of the unit steel pipe. In the present invention configured as described above, the press-fitting of the unit steel pipe is made of a horizontal propulsion method to support the earth pressure load of the upper portion as it is, and to secure the tunnel excavation support structure for excavating the underpass. To provide a unit steel pipe excavation device and construction method for underground roadway construction to support the formation of the support structure and the inner wall of the tunnel at the same time without installing a separate structure for tunnel excavation by installing steel pipes. It is.

 The present invention is a national highway, a highway. When excavating underground tunnels such as railroads and car-only roads, it is possible to easily operate underground tunnels while operating vehicles without installing separate bypass roads.

In addition, the present invention is to install a circular steel pipe and a rectangular unit steel pipe to excavate all the structures for excavating the tunnel and the construction of the wall after the excavation work is done at a time, so the air shortening and construction cost reduction and the ground during the tunnel work National highways, highways. It has the effect that the construction can be carried out quickly without disturbing the vehicles passing by the road such as the railway and the exclusive road for automobiles.

In the unit steel pipe connected with a number of circular pipes to excavate the ground,

The first, second and third circular steel pipes 10, 11, 12 having one or more incisions 13 and reinforcement bars 14 formed therein:

Rectangular unit steel tubes 20 installed to be connected between the first, second and third circular steel tubes 10, 11 and 12;

An excavation steel plate 25 having an excavation blade 26 to excavate the ground at the upper end of the upper plate 21 of the rectangular unit steel pipe 20 including the upper plate 21 and the lower plate 22;

A hydraulic cylinder 27 having one end connected to the bottom surface of the upper plate 21 and the other end connected to the bottom surface of the front surface of the excavation steel sheet 25 to advance the excavation steel sheet 25 to the ground;

The drilled steel plate 25 is configured such that the guide ball 28 is inserted into the guide pin 29 formed on the upper surface of the upper plate 21 of the rectangular unit steel pipe 20 is formed with a plurality of guide balls (28).

The rectangular unit steel pipe 27 is characterized in that the support 23 is installed between the upper plate 21 and the lower plate 22 and the fixing plate 24 is formed at the upper and lower ends of the support.

The rectangular unit steel pipe 20 has a guide rail 30 is installed on one side and a fitting piece 31 having a fitting groove 32 is formed on the other side to connect the rectangular unit steel pipe 20 and the unit steel pipe. It is characterized by the fact that.

Looking at the construction method according to the unit steel pipe excavation device for the underground roadway construction of the road configured as described above are as follows.

Selecting a location for constructing an underground road or an underground walkway and installing a reaction wall and a steel pipe propeller at points corresponding thereto;

Press-fitting the first circular steel pipe (10) using a steel pipe propeller at a central location of the ceiling of the tunnel to be excavated;

Pressing the first circular steel pipe 10 and pressing the second and third circular steel pipes 11 and 12 to be spaced apart from each other at horizontally right and left points;

Inserting the rectangular unit steel pipe 20 between the first, second and third circular steel pipes 10, 11 and 12 to install the ceiling foundation structure of the tunnel;

Installing the support wall foundation member structure of the tunnel by vertically pressing and pressing a rectangular unit steel pipe 20 on the bottom of the first, second and third circular steel pipes 10, 11 and 12;

Removing soil in the first, second, third, and round steel pipes (10) (11) (12) and the rectangular unit steel (20) pipe installed horizontally and vertically;

The first, second, third, and round steel pipes 10, 11, 12 and the front and rear openings of the rectangular unit steel pipe 20 are welded with metal panels, and the concrete injection pipe and the ejection pipe are installed on one side to seal them. Making;

The concrete is injected through the concrete injection pipe, but is injected until the concrete is ejected into the jet pipe installed on the other side, so that the first, second, third, circular steel pipes 10, 11, 12 and rectangular unit steel pipes ( 20) filling and curing the concrete therein;

Completely curing the concrete to form a support structure for digging the tunnel, and then removing the dirt from the tunnel excavation portion inside the rectangular rectangular unit steel pipe 20 to penetrate the tunnel;

Plastering or paint painting mortar plaster on the inner wall of the rectangular unit steel pipe installed to complete the tunnel wall and the tunnel.

 Reference numeral 33 is a lower support portion of the rectangular unit steel pipe forming the support structure of the underground tunnel and the inner wall of the tunnel, and 40 is an upper road surface to be tunnel-excavated, and the road surface is a road on which a vehicle is driven.

When explaining the embodiment of the present invention configured as described in detail as follows.

Step 1: Placing Center Round Steel Pipe for Tunnel Excavation

Select locations for excavation of underground roadways or underground walkways to cross underground such as highways, railroads, and motorways. That is, the excavation position is already in the state where all the blueprints are created by design.

In addition, before the excavation, a barrier is installed to prevent the ground from sinking or collapsing around the ground to be excavated.

After installing the barriers as described above, the reaction wall is installed in the rear to excavate the tunnel and the steel pipe propeller is installed. Steel pipe propellers and reaction walls are typically installed and used in tunnel excavation construction and the description thereof will be omitted.

When the reaction wall and the steel pipe propeller are prepared as described above, the first circular steel pipe 10 is pressed into the steel pipe propeller so as to grasp the center in the center of the ceiling of the tunnel point to be excavated. At this time, the steel pipe propeller is supported on one side of the reaction wall and the cylinder side of the other side corresponding to the rear end of the steel pipe is pressed into the steel pipe step by step into the ground. The first circular steel pipe 10, which serves as a center when the tunnel is excavated, is press-fitted until exposed to the opposite side of the ground to be excavated, and then scrapes the soil inside the first circular steel pipe 10 and therein, " The reinforcement 14 of the "x" shape is welded.

As described above, after the reinforcing bar 14 is welded to the inside of the first circular steel pipe 10, the incision 13 is formed on the left and right sides on the horizontal line and on the bottom of the vertical line.

The cutout portion 13 forms a cutoff line with an oxygen welder to form the cutout portion of the first circular steel pipe 10 in advance, and then press-inserts the cutout line with an oxygen welder after being press-fitted into the ground. Form.

Second step: installing the second and third round steel pipes

 After the first circular steel pipe 10 is installed in the first step, the first and second circular steel pipes 10 are spaced apart from each other by a distance corresponding to the width of the rectangular unit steel pipe 20 which is subsequently press-fitted to the second and third circular pipes. Steel pipes 11 and 12 are installed. The distance between the second circular steel pipe 11 and the third circular steel pipe 12 is a tunnel width that is excavated later.

The second and third circular steel pipes 11 and 12 are also press-fitted to be exposed to the opposite side of the ground to be excavated in the same manner as the first circular steel pipe 10 and then remove the soil therein.

After the soil inside the second and third circular steel pipes 11 and 12 is removed, the reinforcing bar 14 is welded in a “×” shape to the inside, and then the first circular steel pipe 10 located at the center is cut out. An incision 13 is formed by cutting the bottom surface perpendicular to one surface corresponding to the portion 13.

Even though the cutouts 15 are formed in the respective round steel pipes by welding the reinforcing bars 14 having a “×” shape in the first, second and third round steel pipes 10, 11, 12, the earth pressure Even if this occurs, deformation does not occur in the round steel pipe.

In addition, the number of installation of the round steel pipe press-installed in the upper position of the tunnel may be selectively changed depending on the size of the tunnel.

Third step: installation of rectangular unit steel pipe, which is the basic member structure of ceiling and wall structure of tunnel

The present invention is to hold the center using the first circular steel pipe (10) in the upper position of the tunnel to be excavated after the installation of the second, third circular steel pipe (11, 12) as a jaw each first circular The rectangular unit steel pipe 20 is press-installed between the steel pipe 10 and the second circular steel pipe 11 and between the first circular steel pipe 10 and the third circular steel pipe 12.

At this time, if the circular steel pipe is wide between the rectangular unit steel pipe can not constitute a ceiling unit, the rectangular unit steel pipe 20 and the rectangular unit steel pipe 20 is pressed into the horizontal line.

Connection of the rectangular unit steel pipe 20 can be connected by installing a guide rail 30 and the fitting piece 31 on the other side of the rectangular unit steel pipe 20.

 Guide rails 30 and fitting pieces 31 provided on both sides of the rectangular unit steel pipe 20 may be selectively installed as necessary.

As described above, when the rectangular unit steel pipe is pressed in between the circular steel pipes, a basic member structure of the ceiling support structure of the tunnel to be excavated is formed.

After the base member structure of the ceiling part is completed, the rectangular unit steel pipe 20 is vertically fitted so as to be fitted into the cutout portion 13 formed at the bottom of the first, second, and third circular steel pipes 10, 11, 12 that are stamped. It is installed continuously on the ship to install the foundation member structure of the tunnel wall.

Square unit steel pipe 20 is installed as a base member structure of the tunnel wall is pushed to the side when installed.

The first, second and third circular steel pipes 10, 11, 12 and rectangular unit steel pipes 20 to be inserted are welded to the rear end of the circular steel pipe or rectangular unit steel pipe when the length is short when press-fitted. After connecting, continue press-in operation.

The rectangular unit steel pipe of the present invention is composed of upper and lower plates, and a support 23 having a fixing plate 24 is installed between the upper and lower plates 21 and 22 to support the upper and lower plates 21 and 22. .

An excavation steel plate 25 is installed at the tip of the upper plate 21 of the rectangular unit steel pipe 20 so that the excavation steel plate 25 penetrates the ground when the rectangular unit steel pipe 20 is press-fitted.

The drilled steel plate 25 is fitted with a guide pin 29 formed to correspond to the guide ball 28 on one side of the upper plate 21 is provided with a plurality of guide balls 28 in accordance with the operation of the hydraulic cylinder 27 Excavated steel sheet 25 is advanced. At this time, the distance that the excavation steel plate 25 moves is proportional to the distance of the guide ball (28).

 Fourth step: concrete placing and curing for the supporting structure of the tunnel

In the third step, the rectangular unit steel pipe 20 is press-fitted and installed on the horizontal line between the first, second, and third circular steel pipes 10, 11, 12 and the vertical line of the bottom. ) Remove the soil introduced when press-in inside.

After removing the soil as described above, the front and rear surfaces of the rectangular unit steel pipe 20 and the openings of the front surfaces of the first, second, and third steel pipes are welded and sealed with a metal panel.

At this time, after installing the concrete pouring pipe on one side in front of the rectangular unit steel pipe 20 and the concrete spout pipe on the other side, the exposed part exposed to the outside is welded with a metal panel to be sealed and then sealed through the concrete injection pipe (not shown). Pour it. In the present invention, the injection pipe and the ejection pipe are used as a means for injecting concrete and are installed arbitrarily in an optional position, and thus the drawings are omitted.

 When the concrete is injected through the injection pipe when the first, second, third circular steel pipe 10, 11, 12 and the concrete injected inside the plurality of rectangular unit steel pipe 20 is filled with a blow pipe formed on the other side As concrete is ejected, the concrete injection is stopped and cured at this time.

The rectangular unit steel pipe 20 into which the concrete is injected is installed between the first, second and third circular steel pipes to form the ceiling of the tunnel, and the rectangular unit steel pipes 20 installed on the vertical line form the walls of the tunnel.

Since the rectangular unit steel pipe 20 installed in the present invention has a size of 1.5m between the upper and lower plates 21 and 22, when the concrete is poured and cured, a tunnel wall of 1.5m is formed.

Step 5: Tunnel Excavation

 After installing the supporting structure for excavating the tunnel by performing the processes of the first to fourth steps, the soil inside the rectangular unit steel pipe 20 having the ceiling and the wall is excavated and removed.

Since the installed rectangular unit steel pipe 20 is in a state where concrete is poured and cured, the tunnel is naturally formed by completely removing soil in the ceiling and walls of the tunnel.

Step 6: Plastering the Tunnel

When the tunnel is completed as described above, since the inner surface of the rectangular unit steel pipe 20 is exposed to the inside of the tunnel, only the metal panel remains, so that the cement paste may be sprayed on the inner wall of the tunnel and then plastered with mortar. At this time, plastering with color mortar or paint is completed according to the surrounding environment.

Brief description of the accompanying drawings of the present invention as follows.

1 is an exemplary embodiment of the present invention, when the tunnel is excavated by installing a circular steel pipe and a rectangular unit steel plate to form a basic structure, the underground road or underground walkway excavation construction underground, such as highways, train tracks, car-only roads In order to prevent the ground from collapsing during the construction, supporting structures are installed. This proposal allows the formation of the inner wall of the tunnel for supporting structures.

Therefore, the present invention first press-install the first, second, third circular steel pipe in the position to excavate the tunnel, and install a support structure by installing a rectangular unit steel pipe 20 between the circular steel pipes The first step is to install the basic structure as shown in FIG.

Figure 1 shows a connection diagram of a circular steel tube and a rectangular unit steel pipe briefly showing the state pressed into the ground, showing the framework of the foundation structure.

In FIG. 1, the lower end portion of the rectangular unit steel pipe 20 in a vertical line corresponding to both walls of the tunnel is provided with a supporting member-shaped steel pipe so as to support the ground in the future to form a lower support portion 33 of the rectangular unit steel pipe. do.

FIG. 2 is an exemplary view illustrating the installation of a foundation structure in which a rectangular unit steel pipe is installed between circular steel pipes to form a ceiling portion of a tunnel, according to an embodiment of the present invention, to set a reference point on the ground of a position where an underground tunnel is to be excavated. 1 Install the round steel pipe (10). The second circular steel pipe 11 and the third circular steel pipe 12 are press-installed at a corner position where the ceiling and the wall of the tunnel meet by spaced apart by the width of the tunnel which is subsequently excavated to the first circular steel pipe.

At this time, the first circular steel pipe 10 forms a cutout 13 on the bottom left and right on the horizontal line and the vertical line so that the rectangular unit steel pipe can be connected later.

Also, the second circular steel pipe 11 and the third circular steel pipe 12 spaced apart from each other and placed in the left and right sides are rectangular units having a cutout 13 formed on one side and a bottom surface corresponding to the first circle and installed on a horizontal line. A cutout is formed so that the rectangular unit steel pipe 20 forming a wall on the vertical line with the steel pipe 20 can be installed.

2 is a connection configuration of the first, second and third circular steel pipes 10, 11, 12 and rectangular unit steel pipes 20 installed therebetween to form a ceiling portion of the tunnel to be excavated. It is shown.

3 is an exemplary embodiment of the present invention, a rectangular unit steel pipe is connected to the circular steel pipe in both directions and the lower vertical direction, Figure 3 is when the tunnel is constructed in a reciprocating lane or the width of the tunnel is wide in the center portion It shows the connection structure between the round steel pipe and the rectangular unit steel pipe when the column is erected.

3 is press-fitted so that a rectangular unit steel pipe is connected to both horizontal cut portions of the first circular steel pipe, and a rectangular unit steel pipe 20 is vertically installed in the cutout portion 13 of the bottom of the first circular steel pipe 10. Make it a wall.

4 is an exemplary view of a state in which a rectangular unit steel pipe is connected horizontally to one side of a circular steel pipe and one side is vertically connected to a circular steel pipe, and a rectangular unit steel pipe (not shown) at one side incision of the second circular steel pipe 11 is shown. 20) is press-fitted and a rectangular unit steel pipe is installed on the incision at the bottom to form a wall of the tunnel.

1 to 4, the bending guide can be smoothly connected to the rectangular unit steel pipe 20 inserted into both sides of the cutout portion 13 of the first, second and third circular steel pipe 10, 11, 12 It is possible to widen the contact surface with one end of the rectangular unit steel pipe 20 to be inserted by welding the piece 34.

Figure 5 is a perspective view of the excavation steel plate is installed in the rectangular unit steel pipe of the present invention, the rectangular unit steel pipe 20 of the present invention is formed in the shape of a rectangular tube of the overall shape.

The rectangular unit steel pipe 20 is composed of an upper plate 21 and a lower plate 22, but forms a space portion between the upper and lower plates 21 and 22, but a plurality of struts 23 are installed in the space portion to form a rectangle. The unit steel pipe 20 is formed.

The height between the upper and lower plates 21 and 22 is proportional to the length of the strut 23. The fixing plate 24 is horizontally welded to the upper and lower ends of the support 23 installed in the space portion, and the fixing plate 24 is supported on the outer circumferential surface of the outer bent portion to which the fixing plate 24 and the support 23 are connected. A plurality of reinforcing pieces 24 'are welded at right angles so that the fixing plate 24 is supported.

The fixed plate 24 welded horizontally to the upper and lower ends of the support 23 is welded to the bottom surface of the upper plate 21 and the upper surface of the lower plate 22 of the unit steel pipe 20 so that the support area is uniformly applied.

In addition, the guide rails 30 made of “” ”shaped steels are installed on the lower plates 21 and 22 on one side of the rectangular unit steel pipe 20, and are fitted to the other side of the rectangular unit steel pipe 20. A fitting rail 31 having a groove 32 is provided to guide the rail 30 installed on one side of the other rectangular unit steel pipe. The guide rails 30 and the fitting pieces 31 installed on both sides of the rectangular unit steel pipe 20 are used for horizontally connecting the rectangular unit steel pipe and the rectangular unit steel pipe, and are selectively installed as necessary.

In addition, the excavation steel plate 25 is provided at the tip of the upper plate 21 of the rectangular unit steel pipe 20 of the present invention.

The excavated steel sheet 25 is inserted into the guide pin 29 is formed so that a plurality of guide balls 28 are formed at regular intervals to protrude on the upper plate 21, the excavated steel sheet 25 is a hydraulic cylinder (27) It is advanced and serves as a guide when indenting the ground.

6 is an embodiment in which the rectangular unit steel pipe of the present invention is pressed into the ground using an excavation steel sheet, the present invention is provided with an excavation steel plate 25 on one side of the upper surface of the upper plate 21 of the rectangular unit steel pipe 20, The hydraulic cylinder 27 is installed on the lower surface of the excavated steel sheet 25 and the bottom of the upper plate 21 so that the excavated steel sheet 25 is moved forward or backward.

In addition, the drilled steel plate 25 is formed with a plurality of guide balls 28, the guide ball 28 is fitted to the guide pin 29 formed on the upper plate 21 can be moved forward and backward.

Accordingly, when the excavation steel sheet 25 is advanced by operating the hydraulic cylinder 27 installed in front of the rectangular unit steel pipe 20 during the excavation, the back reaction wall of the rectangular unit steel pipe 20 after the excavation blade 26 excavates the ground. Pressing the rectangular unit steel pipe 20 forward with a steel pipe propeller (not shown) installed at the same time and operating the hydraulic cylinder 27, the unit steel pipe is advanced in the state in which the drilled steel plate 25 is advanced, and the excavated steel plate 25 is again. Excavate underground tunnel by advancing and digging and advancing rectangular unit steel pipe (20).

7 is a plan view of the rectangular unit steel pipe and the excavation steel plate of the present invention is installed, the excavation steel plate 25 is installed on the top end of the upper plate 21 of the unit steel pipe of the present invention is ground by a hydraulic cylinder () A plurality of guide balls 28 formed in the excavated steel sheet () to excavate the guide holes 28 are fitted into the guide pins 29 formed to correspond to the guide balls 28 on the upper plate 21. It serves as a guide when the steel plate 25 moves forward.

8 is an exemplary view showing a rectangular unit steel pipe of the present invention formed as an inner wall of a support structure of a tunnel, and after the first, second and third circular steel pipes and the rectangular unit steel pipe of the present invention are installed in a tunnel excavation part, Placing concrete inside to form the support structure of the tunnel automatically forms the walls of the tunnel.

A feature of the present invention is that a circular steel pipe and a rectangular unit steel pipe installed as a supporting structure for the tunnel excavation work are to be walls of the tunnel, so there is no need for a separate support structure work and construction for forming a concrete wall after excavation.

The present invention is to install a circular steel pipe and a rectangular unit steel pipe to excavate all the structures to excavate the tunnel and the construction work after the excavation of the wall is made in one time, so shortening the air and construction costs and the national road of the ground during the tunnel work , highway. The project was designed to allow the construction to be carried out quickly without disturbing the vehicles that pass through the roads such as railroads and motorways.

1 is an exemplary embodiment of the present invention, the foundation structure is formed by installing a circular steel pipe and a rectangular unit steel plate during the tunnel excavation.

Figure 2 is an embodiment of the present invention, the installation example of the basic structure to form a ceiling of the tunnel by installing a rectangular unit steel pipe between the circular steel pipe.

Figure 3 is an embodiment of the present invention, an exemplary view of a rectangular unit steel pipe connected to the circular steel pipe in both directions and the lower vertical direction.

Figure 4 is an exemplary embodiment of the present invention, the rectangular unit steel pipe to the circular steel pipe, one side is horizontal, the other side is an illustration of the vertically connected state.

Figure 5 is a perspective view of the excavation steel plate is installed in a rectangular unit steel pipe of the present invention.

Figure 6 is an embodiment of pressing the rectangular unit steel pipe of the present invention to the ground using an excavated steel sheet

7 is a plan view of the rectangular unit steel pipe and the drilled steel plate of the present invention installed.

8 is an exemplary view of a rectangular unit steel pipe of the present invention is formed as the inner wall of the support structure of the tunnel.

<Description of the symbols for the main parts of the drawings>

10: first round steel pipe 11: second round steel pipe

12: Third round steel pipe 13: incision

14: reinforcement 20: rectangular unit steel pipe

21: upper plate 22: lower plate

23: holding 24: fixing plate

25: Excavation book 26: Excavation day

27: hydraulic cylinder 28: guide ball

29: guide pin 30: guide rail

31: fitting 32: fitting groove

33: base 34: guide

Claims (4)

In the unit steel pipe connected with a number of circular pipes to excavate the ground, The first, second and third circular steel pipes 10, 11, 12 having one or more incisions 13 and reinforcement bars 14 formed therein: Rectangular unit steel tubes 20 installed to be connected between the first, second and third circular steel tubes 10, 11 and 12; An excavation steel plate 25 having an excavation blade 26 to excavate the ground at the upper end of the upper plate 21 of the rectangular unit steel pipe 20 including the upper plate 21 and the lower plate 22; A hydraulic cylinder 27 having one end connected to the bottom surface of the upper plate 21 and the other end connected to the bottom surface of the front surface of the excavation steel sheet 25 to advance the excavation steel sheet 25 to the ground; The drilled steel plate 25 is formed with a plurality of guide balls 28 are formed so that the guide ball 28 is inserted into the guide pin 29 formed on the upper surface of the upper plate 21 of the rectangular unit steel pipe 20 is moved. Unit steel pipe excavation device for the construction of underground roads. The method of claim 1, Rectangular unit steel pipe 27 is a unit for the construction of the underground roadway, characterized in that the support plate 23 is installed between the upper plate 21 and the lower plate 22 and the fixing plate 24 is formed at the upper and lower ends of the support plate. Steel pipe rig. The method of claim 1, The rectangular unit steel pipe 20 is provided with a guide rail 30 on one side and a fitting piece 31 having a fitting groove 32 on the other side to connect the rectangular unit steel pipe 20 and the unit steel pipe. Unit steel pipe excavation device for construction of underground roadway, characterized in that the configuration. Selecting a location for constructing an underground road or an underground walkway and installing a reaction wall and a steel pipe propeller at points corresponding thereto; Press-fitting the first circular steel pipe (10) using a steel pipe propeller at a central location of the ceiling of the tunnel to be excavated; Pressing the first circular steel pipe 10 and pressing the second and third circular steel pipes 11 and 12 to be spaced apart from each other at horizontally right and left points; Inserting the rectangular unit steel pipe 20 between the first, second and third circular steel pipes 10, 11 and 12 to install the ceiling foundation structure of the tunnel; Installing the support wall foundation member structure of the tunnel by vertically pressing and pressing a rectangular unit steel pipe 20 on the bottom of the first, second and third circular steel pipes 10, 11 and 12; Removing soil in the first, second, third, and round steel pipes (10) (11) (12) and the rectangular unit steel (20) pipe installed horizontally and vertically; The first, second, third, and round steel pipes 10, 11, 12 and the front and rear openings of the rectangular unit steel pipe 20 are welded with metal panels, and the concrete injection pipe and the ejection pipe are installed on one side to seal them. Making; The concrete is injected through the concrete injection pipe, but is injected until the concrete is ejected into the jet pipe installed on the other side, so that the first, second, third, circular steel pipes 10, 11, 12 and rectangular unit steel pipes ( 20) filling and curing the concrete therein; Curing the concrete completely to form a support structure for digging the tunnel, and then removing the dirt from the tunnel digging portion inside the rectangular unit steel pipe 20 to penetrate the tunnel; Unit steel pipe excavation construction method for underground roadway construction, comprising the steps of completing the tunnel wall and the tunnel by mortar plastering or painting the inner wall of the installed rectangular unit steel pipe

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