KR101081999B1 - Excavation method using messer plate and steel tube - Google Patents

Abstract

PURPOSE: An underground tunnel excavating method using a messer plate and a steel pipe is provided to enable an unskilled worker to safely process using a messer shield method and a pipe roof method. CONSTITUTION: An underground tunnel excavating method using a messer plate is composed like next. A plurality of steel pipes is established side by side in underground at a regular interval in order to remove soil from the steel tube. A plurality of oblique messer plate(VMP) for preventing mine gallery collapse is mounted on the steel pipe. A plurality of messer plate is installed between the steel pipes. A plurality of oblique messer plate for preventing mine gallery collapse is mounted. A support material is installed on the lower part of the messer plate after soil is removed. The facing side wall of the steel pipes is cut to the installation groove of the oblique messer plate from an opening. A plurality of laggings is on the location in which the messer plate is pressed.

Description

Excavation Method Using Messer Plate And Steel Tube}

According to the present invention, there is no risk of collapse of the membrane by using the method plate and the steel pipe, and even unskilled workers can be constructed with a predetermined quality. It relates to a tunnel excavation method.

Among conventional underground tunnel excavation structures and underground tunnel excavation methods, there are (1) a Messer Shield Method and (2) a Pipe Roof Method.

20 is a conceptual diagram of a conventional method of the shield method.

(1) Messer Shield Method (Messer Shield Method) is a method that is mainly applied to the small soil and weathered soil section of the tunnel upper topigo, as shown in Figure 20, to build the oscillation base in a constant vertical work zone and manufactured using a steel sheet Place the prepared Messer Plate in parallel to fit the tunnel section on the pre-installed Jibo-hole, and inject the Messer Plate into the ground one by one using the hydraulic jack to excavate the membrane surface, and In the rear, a tunnel is installed safely between the Messer Plate and the Jibo-Gong by installing a soil plate.

21 is a conceptual diagram of a conventional steel pipe intrusion method, Figure 22 is a conventional pipe roof method (Pipe Roof Method).

Steel tube jacking method (Steel Tube Jacking Method) as shown in Figure 21 using a hydraulic jack supported on the reaction wall of the rear press-in the steel pipe, excavated and excavated the earth and sand inside the steel pipe after the steel pipe propulsion seat (2) Pipe Roof Method shown in FIG. 22 is a method of continuously applying this as a method of embedding the main building in the ground and embedding the desired object in the ground.

(1) The Messer Shield Method (Messer Shield Method) is divided into large-sized tunnels can be divided into small excavation, so high stability, small area of oscillation work tool, and has been widely used as a vibration-free and noise-free method. However, because of the use of Messer Plates on the left and right wall supports during the excavation process, the process is complicated and requires a lot of materials. Also, the membrane collapse is inadequate due to insufficient measures for membrane collapse. .

(2) The pipe roof method (Pipe Roof Method) has an advantage in the section that is subjected to a large stress due to the structural characteristics of the circular cross section, but there are disadvantages such as a lot of material is required by arranging a lot of steel pipes in parallel unnecessarily.

Therefore, by properly fusion of the advantages of the (1) Messer Shield Method (2) and the Pipe Roof Method (Pipe Roof Method) to improve the workability, structural stability and economic efficiency, and most of all can prevent membrane collapse Development of structures and methods is urgent.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, underground tunnel excavation structure and underground tunnel excavation using meserplate and steel pipe that can be safely constructed with a certain quality by combining the advantages of the Messer Shield Method and Pipe Roof Method. To provide a method.

Second, underground tunnel excavation structure and underground tunnel excavation method using meserplate and steel pipe with excellent economic efficiency by reducing material requirements and shortening air by alternately using messer shield method and pipe roof method. To provide.

Third, to provide the underground tunnel excavation structure and underground tunnel excavation method using mesoplate and steel pipe which are structurally stable and prevent safety accidents by taking countermeasures to prevent membrane collapse.

In order to solve the above technical problem, the present invention, underground tunnel excavation structure,

Two steel pipes (SP) are pressed and installed side by side in the ground while maintaining a constant interval between each other; Multiple membrane collapse preventing diagonal plate (VMP) which exits the membrane collapse preventing diagonal plate installation groove (VMPH) cut in the opposite side of the steel pipe (SPPH) toward the curtain side and is in contact with each other in the shape of joining each other. ); A plurality of support members cut between opposite sides of the steel pipe (SP) from an inlet to an oblique method plate mounting groove (VMPH) for preventing membrane collapse and are installed between the steel pipes (SP); And, a plurality of mesoplates (MP) installed on the support material;

Underground tunnel excavation structure using a methoder plate and steel pipe, characterized in that there is no risk of collapse of the membrane by supporting the seismic plater (VMP) to prevent the collapse of the membrane when the worker is working under the method plate (MP) To provide.

In addition, in the construction method for excavating the underground tunnel using the underground tunnel excavation structure using the method plate and the steel pipe,

(1) steel pipe installation step of installing a plurality of steel pipes (SP) by pressing side by side at a predetermined interval between the ground and to remove the soil inside the steel pipe (SP); (2) a first stage membrane collapse prevention mesothelier plate formed by cutting two opposing side surfaces of two steel pipes (SP) located in the center of the installed steel pipes (SP) to form a mesothelial mesopore plate installation groove (VMPH) for preventing membrane collapse. Installation home installation step; (3) The first stage curtain wall is provided with a plurality of membrane collapse prevention diagonal plate plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the curtain side and the ends of the membrane collapse contact each other in the shape of joining each other. Collapsed diagonal messer plate installation step; (4) between the two steel pipes (SP) on which the membrane collapse preventing diagonal plate (VMP) is installed, the steel pipes (SP) are used as supporters on both sides, and a plurality of method plates (MP) are installed by pressing them into the ground. The first stage centerer plate is installed to remove the earth and sand of the lower part of the method plate (MP) and to cut the opposite side of the steel pipe (SP) from the entrance to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the membrane. step; (5) the first stage of the earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; (6) Cut off the mesothelial method plate for preventing membrane collapse by cutting the opposite sides of the two steel pipes (SPPH) at a certain distance ahead of the membrane-breaking oblique message plate installation groove (VMPH) formed in step (2) above. The second step of the mesothelial mesopore plate installation groove preventing installation step; (7) a second stage membrane for installing a plurality of membrane collapse preventing diagonal plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the membrane and is in contact with each other in the shape of joining together; Collapsed diagonal messer plate installation step; (8) between the two steel pipes (SP) in which the membrane collapse preventing diagonal plate (VMP) is installed, using the steel pipes (SP) as supporters on both sides and press-fitting into the ground to install a plurality of method plates (MP); A second step central method plate installation step of removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the pipe at the same time; (9) the second stage earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; And, (10) provides a underground tunnel excavation method using a method plate and a steel pipe, characterized in that it comprises a; repeating the step (6) to (9) the central repeated construction step.

According to the present invention, the following effects are expected.

First, underground tunnel excavation structure and underground tunnel excavation using meserplate and steel pipe that can be safely constructed with a certain quality by combining the advantages of the Messer Shield Method and Pipe Roof Method. Provide a method.

Second, underground tunnel excavation structure and underground tunnel excavation method using meserplate and steel pipe with excellent economic efficiency by reducing material requirements and shortening air by alternately using messer shield method and pipe roof method. To provide.

Third, it provides underground tunnel excavation structure and underground tunnel excavation method using meserplate and steel pipe which are structurally stable and prevent safety accidents by taking countermeasures to prevent membrane collapse.

1 and 2 illustrate the underground tunnel excavation structure using the method plate and the steel pipe of the present invention.
Figure 3 is a flow chart of the underground tunnel excavation method using the method plate and steel pipe of the present invention.
4 to 15 show the order of the underground tunnel excavation method using the method plate and the steel pipe of the present invention in order.
Figure 16 is an embodiment completed by the underground tunnel excavation method using the method plate and steel pipe of the present invention.
Figure 17 shows a method of implementing a mesoplate plate for preventing membrane collapse in underground tunnel excavation method using the method plate and steel pipe of the present invention.
Figure 18 is an embodiment of the membrane collapsed diagonal plate support for preventing membrane collapse used in the underground tunnel excavation method using the method plate and steel pipe of the present invention.
Figure 19 is a construction example of the membrane collapse prevention parallel method plate in the underground tunnel excavation method using the method plate and the steel pipe of the present invention.
20 is a conceptual diagram of a conventional method of the shield method.
21 is a conceptual diagram of a conventional steel pipe indentation method.
22 is a conventional pipe roof method.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Underground Tunnel Excavation Structures Using Method Plate and Steel Pipe

Underground tunnel excavation structure using the method plate and steel pipe of the present invention, in the underground tunnel excavation structure,

Two steel pipes (SP) are pressed and installed side by side in the ground while maintaining a constant interval between each other; Multiple membrane collapse preventing diagonal plate (VMP) which exits the membrane collapse preventing diagonal plate installation groove (VMPH) cut in the opposite side of the steel pipe (SPPH) toward the curtain side and is in contact with each other in the shape of joining each other. ); A plurality of support members cut between opposite sides of the steel pipe (SP) from an inlet to an oblique method plate mounting groove (VMPH) for preventing membrane collapse and are installed between the steel pipes (SP); And, a plurality of mesa plate (MP) is installed on the upper support; Consists of including

When the worker is working under the mesa plate (MP), the sedimentary mesopore plate (VMP) for preventing membrane collapse is supported by the earth pressure of the membrane, characterized in that there is no risk of collapse of the membrane.

In addition, the support may be configured to include the upper support (US), vertical support (VS), sidewall support (WS) and the lower support (DS).

1 and 2 illustrate the underground tunnel excavation structure using the method plate and the steel pipe of the present invention.

Specifically, FIG. 1 (a) shows two steel pipes pressed in parallel to the ground to remove soil inside the steel pipe, and FIG. 1 (b) shows a diagonal messer plate installation groove for preventing membrane collapse between two steel pipes ( VMPH) shows a diagonal messenger plate (VMP) for preventing membrane collapse.

2 (a) shows a state in which the method plate MP is press-fitted on the upper support material, and FIG. 2 (b) shows only the support material and the like in the state where the method plate MP is removed.

The steel pipe (SP) uses a steel pipe commonly used in excavation work, and the two are installed by pressing side by side in the ground while maintaining a predetermined interval between each other.

The membrane collapse prevention diagonal mesoplate (VMP) exits the membrane collapse prevention diagonal mesoplate installation groove (VMPH) cut in the facing side of the steel pipe (SPPH) toward the curtain wall and contact each other in the shape that the ends are joined together. There are a number of installed. The contact angle can be freely adjusted in the field in consideration of the earth pressure of the curtain.

The support material refers to a commonly used method in the method of the shield method, and cuts the opposite side of the steel pipe (SP) from the entrance to the diagonal mesopore plate installation groove (VMPH) for preventing the collapse of the membrane and is installed between the steel pipe (SP) The upper support member US, the vertical support member VS, the sidewall support member WS, and the lower support member DS may be formed.

The method plate (MP) refers to a commonly used method in the method of the shield method is installed a plurality of the upper portion of the support.

Underground tunnel excavation structure using the method plate and steel pipe of the present invention is different from the conventional method of the shield method is supported by a steel pipe instead of the method plate, the structural stability is high, in the underground tunnel excavation method using a method plate and steel pipe to be described later As described above, when the construction is performed in parallel in parallel, it is possible to realize an excavation method having excellent workability and safety.

In addition, the biggest feature of the underground tunnel excavation structure using the method plate and the steel pipe of the present invention is that the membrane collapse prevention diagonal mesoplate (VMP) is pre-installed on the membrane, there is no risk of membrane collapse, thereby enhancing the safety of the operator.

2. Method plate  Underground tunnel excavation method using steel pipe

Figure 3 is a flow chart of the underground tunnel excavation method using the method plate and steel pipe of the present invention.

Underground tunnel excavation method using the method plate and the steel pipe of the present invention (1) the steel pipe installation step of installing a plurality of steel pipe (SP) by pressing side by side at a predetermined interval in the ground and removing the soil inside the steel pipe (SP); (2) a first stage membrane collapse prevention mesothelier plate formed by cutting two opposing side surfaces of two steel pipes (SP) located in the center of the installed steel pipes (SP) to form a mesothelial mesopore plate installation groove (VMPH) for preventing membrane collapse. Installation home installation step; (3) The first stage curtain wall is provided with a plurality of membrane collapse prevention diagonal plate plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the curtain side and the ends of the membrane collapse contact each other in the shape of joining each other. Collapsed diagonal messer plate installation step; (4) between the two steel pipes (SP) on which the membrane collapse preventing diagonal plate (VMP) is installed, the steel pipes (SP) are used as supporters on both sides, and a plurality of method plates (MP) are installed by pressing them into the ground. The first stage centerer plate is installed to remove the earth and sand of the lower part of the method plate (MP) and to cut the opposite side of the steel pipe (SP) from the entrance to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the membrane. step; (5) the first stage of the earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; (6) Cut off the mesothelial method plate for preventing membrane collapse by cutting the opposite sides of the two steel pipes (SPPH) at a certain distance ahead of the membrane-breaking oblique message plate installation groove (VMPH) formed in step (2) above. The second step of the mesothelial mesopore plate installation groove preventing installation step; (7) a second stage membrane for installing a plurality of membrane collapse preventing diagonal plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the membrane and is in contact with each other in the shape of joining together; Collapsed diagonal messer plate installation step; (8) between the two steel pipes (SP) in which the membrane collapse preventing diagonal plate (VMP) is installed, using the steel pipes (SP) as supporters on both sides and press-fitting into the ground to install a plurality of method plates (MP); A second step central method plate installation step of removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the pipe at the same time; (9) the second stage earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; And, (10) the central repeat construction step of repeating the steps (6) to (9); characterized in that it comprises a.

4 to 15 show the order of the underground tunnel excavation method using the method plate and the steel pipe of the present invention in order.

Figure 4 shows (1) steel pipe installation step in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

The (1) steel pipe installation step; refers to the step of installing a plurality of steel pipes (SP) by pressing side by side at a predetermined interval in the ground and removing the earth and sand inside the steel pipe (SP), the interval between each other is a film collapse preventing diagonal It is desirable to determine the length of the method plate (VMP) in consideration of the workability inside the steel pipe.

(2) the first stage membrane collapse preventing diagonal plate installation groove installation step; is to install the diagonal mesokate plate for preventing membrane collapse by cutting the opposite side of the two steel pipe (SP) located in the center of the installed steel pipe (SP) It refers to the step of forming a groove (VMPH).

Figure 5 shows the (3) the first step of the mesoplate plate for preventing the collapse of the membrane in the underground tunnel excavation method using the method plate and steel pipe of the present invention, Figure 17 is an underground tunnel using the method plate and steel pipe of the present invention The method of carrying out the membrane collapsed diagonal messer plate in the excavation method is shown, Figure 18 is an embodiment of the membrane collapsed diagonal messer plate support used in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

(3) the first stage membrane collapse prevention diagonal mesothore plate installation step; the membrane collapse prevention diagonal mesoplate installation groove (VMPH) exits toward the membrane side and a plurality of membrane collapse so that the ends of the mutual contact Refers to the step of installing the anti-meaning method plate (VMP), as shown in Figure 18 is mounted on the inside of the steel pipe to prevent the collapse of the membrane mesopore plate support (VMPS) and use it as a support to prevent the decay of the membrane-measurement (VMP) It is preferable to press into a membrane.

6 and 7 illustrate the step (4) the first stage central method plate installation step in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

(4) the first stage central method plate installation step; the steel pipe (SP) between the two steel pipes (SP) on which the membrane collapse prevention diagonal mesoplate (VMP) is installed as a support on both sides and press-in the ground Installation of four meserplates (MP), remove the earth and sand of the lower portion of the meserplate (MP) and at the same time install the support material at the same time the opposite side of the steel pipe (SP) from the inlet to prevent the collapse Incision step until). In addition, in step (4), the steel pipe (SP) is used as a support on both sides between two steel pipes (SP) on which the membrane collapse preventing diagonal plate (VMP) is installed. Install plate (MP), remove the earth and sand of the bottom of the method plate (MP), and install the upper support (US), lower support (DS) and vertical support (VS) and at the same time facing the steel pipe (SP) The side wall is cut from the inlet to the mesoplate plate installation groove (VMPH) for preventing the collapse of the membrane, and then the side wall support (WS) can be installed.

FIG. 8 illustrates steps (5) to (8) in the underground tunnel excavation method using the method plate and steel pipe of the present invention, and FIG. 9 illustrates step (9).

The first stage earth plate installation step (5) refers to the step of installing a plurality of earth plate in the position where the method plate MP is pressed.

(6) the second stage film collapse prevention diagonal mesoplate installation groove installation step; the two membrane pipe prevention grooves for preventing the collapse formed in the step (2) of the two points ahead of the predetermined distance (VMPH) of the steel pipe (SP) The step of cutting the opposite side to form a diagonal mesopore plate installation groove (VMPH) for preventing collapse.

(7) the second stage membrane collapse prevention diagonal mesothore plate installation step; the membrane collapse prevention diagonal mesoplate installation groove (VMPH) exits toward the membrane side and a plurality of membrane collapse so that the ends of the mutual contact Refers to the step of installing a preventive diagonal message plate (VMP).

(8) the second stage central method plate installation step; the steel pipe (SP) between the two steel pipes (SP) on which the membrane collapse prevention diagonal mesoplates (VMP) are installed, and the steel pipe (SP) as a support on both sides to press the ground Two meserplates (MP) are installed, the sediment of the lower part of the meserplate (MP) and the support material are installed, and at the same time the opposite side of the steel pipe (SP) to the mesmerizing plate mounting groove for preventing membrane collapse Say the step of making an incision.

(9) the second stage earth plate installation step; refers to the step of installing a plurality of earth plate in the position where the method plate MP is pressed.

The (10) central repeat construction step; refers to the step of repeating the steps (6) to (9), Figure 10 shows an embodiment of a third stage.

In addition, the underground tunnel excavation method using the method plate and steel pipe of the present invention after the step (9) or (10),

(11) cut the outer wall of two steel pipes (SP) and the adjacent steel pipes (SP) on which the membrane collapse prevention diagonal plate plate (VMP) is installed to form a parallel membrane plate installation groove (HMPH) for preventing membrane collapse and the membrane collapse A first stage membrane collapse prevention parallel method plate installation step of installing a plurality of membrane collapse prevention parallel method plates (HMP) through the anti-mechanical parallel plate installation groove (HMPH); (12) Between the two steel pipes (SP) on which the membrane collapse prevention parallel plate plate (HMP) is installed, the steel pipes (SP) are used as supporters on both sides and press-fitted into the ground to install a plurality of method plates (MP). The first step of the central method plate for removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) from the entrance to the parallel method plate installation groove (HMPH) to prevent the collapse of the membrane. ; (13) a first stage earth plate installation step of installing a plurality of earth plate at a position passed by the method plate MP; And, (14) the side repeat construction step of repeating the steps (11) to (13) at a distance after the predetermined distance in accordance with the running speed of the (10) central repeat construction step; characterized in that it comprises a do.

Figure 11 shows the step (11) the first stage of the membrane collapse prevention parallel method plate installation step in the underground tunnel excavation method using the method plate and steel pipe of the present invention, Figure 19 is a construction of the parallel method plate for membrane collapse prevention An example is shown.

(11) the first step of the membrane collapse prevention parallel method plate installation step; the (9) or (10) step, after the membrane collapse prevention diagonal meso plate (VMP) is installed two steel pipe (SP) outer wall and adjacent steel pipe Cut the outer wall of the (SP) to form a parallel membrane plate mounting groove (HMPH) for preventing membrane collapse, and install a plurality of membrane collapse plate parallel blocking plates (HMP) through the parallel membrane plate mounting groove (HMPH) for preventing membrane collapse. Says a step. In addition, as shown in Figure 19, the membrane collapse prevention parallel method plate (HMP) is working in the excavated space between the steel pipe and the steel pipe in the center, so the membrane collapse prevention parallel method plate (HMP) length is to be made more than the diameter of the steel pipe The distance between the steel pipes where the HMP is installed can be freely widened in consideration of field conditions, and can effectively support the earth pressure of the MMP in front of the HMP. .

Figure 12 shows (12) the first stage central method plate installation step in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

(12) the first step of the central method plate installation step; the steel pipe (SP) between the two steel pipes (SP) in which the membrane collapse prevention parallel plate (HMP) is installed as a support on both sides and press-in the ground Installation of two method plates (MP), remove the earth and sand of the bottom of the method plate (MP) and install the support material at the same time the opposite side of the steel pipe (SP) from the entrance parallel membrane plate installation groove for preventing membrane collapse (HMPH) Say the steps to incision.

Figure 13 shows the (13) first stage earth plate installation step in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

(13) the first stage earth plate installation step; refers to the step of installing a plurality of earth plate in the position where the mesa plate (MP) is pushed in, as shown in Figure 13 parallel to this to prevent the film collapse of the central portion The Messer Plate (VMP) moves forward and is constructed.

Figure 14 shows the (14) side repeat construction step in the underground tunnel excavation method using the method plate and steel pipe of the present invention.

The side repeat construction step; refers to the step of repeating the steps (11) to (13) at a distance after the predetermined distance in accordance with the running speed of the (10) central repeat construction step.

Figure 15 shows a state in which the earth plate is finally installed in all sections, Figure 16 is an embodiment completed by the underground tunnel excavation method using the method plate and steel pipe of the present invention. 15 shows only the support material installed in the lower portion of the earth plate, but a plurality of earth plate is installed on the upper support material to prevent collapse.

As shown in FIG. 16, the present method may be installed horizontally on the ground, or may be installed underground in the ground perpendicular to the ground.

16 is an embodiment specifically combining a horizontal construction and a vertical construction,

After the construction as a whole '' type as in this embodiment, using steel pipes and earth plate as a structural material and formwork by pouring concrete inside the steel pipe and earth plate, and removing the soil inside the '' type surrounded by the top and left and right sides It is possible to construct a large tunnel.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

SP: steel pipe
VMPH: Diagonal Messer Plate Installation Home
VMP: Diagonal messer plate for preventing membrane collapse
HMPH: Parallel method plate mounting groove for preventing membrane collapse
HMP: Parallel Mess Plate
VMPS: diagonal mesoplate support for preventing membrane collapse
MP: Messerplate
US: Upper support
VS: vertical support
WS: Sidewall Support
DS: Lower support

Claims (6)

delete delete Two steel pipes (SP) are pressed and installed side by side in the ground while maintaining a constant interval between each other;
Multiple membrane collapse preventing diagonal plate (VMP) which exits the membrane collapse preventing diagonal plate installation groove (VMPH) cut in the opposite side of the steel pipe (SPPH) toward the curtain side and is in contact with each other in the shape of joining each other. );
A plurality of support members cut between opposite sides of the steel pipe (SP) from an inlet to an oblique method plate mounting groove (VMPH) for preventing membrane collapse and are installed between the steel pipes (SP); And,
A plurality of mesa plate (MP) is installed on the upper support material; wherein, when the worker is working under the mesa plate (MP) to support the sedimentary mesothelier plate (VMP) for preventing the collapse of the membrane In the construction method for excavating underground tunnels using underground tunnel excavation structures using a method plate and steel pipe, characterized in that there is no risk of collapse of the membrane,
(1) steel pipe installation step of installing a plurality of steel pipes (SP) by pressing side by side at a predetermined interval between the ground and to remove the soil inside the steel pipe (SP);
(2) a first stage membrane collapse prevention mesothelier plate formed by cutting two opposing side surfaces of two steel pipes (SP) located in the center of the installed steel pipes (SP) to form a mesothelial mesopore plate installation groove (VMPH) for preventing membrane collapse. Installation home installation step;
(3) The first stage curtain wall is provided with a plurality of membrane collapse prevention diagonal plate plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the curtain side and the ends of the membrane collapse contact each other in the shape of joining each other. Collapsed diagonal messer plate installation step;
(4) between the two steel pipes (SP) on which the membrane collapse preventing diagonal plate (VMP) is installed, the steel pipes (SP) are used as supporters on both sides, and a plurality of method plates (MP) are installed by pressing them into the ground. The first stage centerer plate is installed to remove the earth and sand of the lower part of the method plate (MP) and to cut the opposite side of the steel pipe (SP) from the entrance to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the membrane. step;
(5) the first stage of the earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed;
(6) Cut off the mesothelial method plate for preventing membrane collapse by cutting the opposite sides of the two steel pipes (SPPH) at a certain distance ahead of the membrane-breaking oblique message plate installation groove (VMPH) formed in step (2) above. The second step of the mesothelial mesopore plate installation groove preventing installation step;
(7) a second stage membrane for installing a plurality of membrane collapse preventing diagonal plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the membrane and is in contact with each other in the shape of joining together; Collapsed diagonal messer plate installation step;
(8) between the two steel pipes (SP) in which the membrane collapse preventing diagonal plate (VMP) is installed, using the steel pipes (SP) as supporters on both sides and press-fitting into the ground to install a plurality of method plates (MP); A second step central method plate installation step of removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) to the diagonal mesoplate installation groove (VMPH) for preventing the collapse of the pipe at the same time;
(9) the second stage earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; And,
(10) the central repeat construction step of repeating the steps (6) to (9);
Underground tunnel excavation method using a method plate and steel pipe, characterized in that comprises a.
4. The method of claim 3,
After step (9) or (10),
(11) cut the outer wall of two steel pipes (SP) and the adjacent steel pipes (SP) on which the membrane collapse prevention diagonal plate plate (VMP) is installed to form a parallel membrane plate installation groove (HMPH) for preventing membrane collapse and the membrane collapse A first stage membrane collapse prevention parallel method plate installation step of installing a plurality of membrane collapse prevention parallel method plates (HMP) through the anti-mechanical parallel plate installation groove (HMPH);
(12) Between the two steel pipes (SP) on which the membrane collapse prevention parallel plate plate (HMP) is installed, the steel pipes (SP) are used as supporters on both sides and press-fitted into the ground to install a plurality of method plates (MP). The first step of the central method plate for removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) from the entrance to the parallel method plate installation groove (HMPH) to prevent the collapse of the membrane. ;
(13) a first stage earth plate installation step of installing a plurality of earth plate at a position passed by the method plate MP; And,
(14) the side repeat construction step of repeating the steps (11) to (13) at a certain distance in accordance with the running speed of the (10) central repeat construction step;
Underground tunnel excavation method using a method plate and steel pipe, characterized in that comprises a.
Two steel pipes (SP) are pressed and installed side by side in the ground while maintaining a constant interval between each other;
Multiple membrane collapse preventing diagonal plate (VMP) which exits the membrane collapse preventing diagonal plate installation groove (VMPH) cut in the opposite side of the steel pipe (SPPH) toward the curtain side and is in contact with each other in the shape of joining each other. );
A plurality of support members cut between opposite sides of the steel pipe (SP) from an inlet to an oblique method plate mounting groove (VMPH) for preventing membrane collapse and are installed between the steel pipes (SP); And,
A plurality of mesa plate (MP) is installed on the upper support material; wherein, when the worker is working under the mesa plate (MP) to support the sedimentary mesothelier plate (VMP) for preventing the collapse of the membrane Characterized in that there is no risk of collapse of the membrane, the support material is a supporter (US), vertical support (VS), side wall support (WS) and lower supporter (DS) characterized in that it is configured to include a steel plate In the construction method for excavating underground tunnels using underground tunnel excavation structures using
(1) steel pipe installation step of installing a plurality of steel pipes (SP) by pressing side by side at a predetermined interval between the ground and to remove the soil inside the steel pipe (SP);
(2) a first stage membrane collapse prevention mesothelier plate formed by cutting two opposing side surfaces of two steel pipes (SP) located in the center of the installed steel pipes (SP) to form a mesothelial mesopore plate installation groove (VMPH) for preventing membrane collapse. Installation home installation step;
(3) The first stage curtain wall is provided with a plurality of membrane collapse prevention diagonal plate plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the curtain side and the ends of the membrane collapse contact each other in the shape of joining each other. Collapsed diagonal messer plate installation step;
(4) between the two steel pipes (SP) on which the membrane collapse preventing diagonal plate (VMP) is installed, the steel pipes (SP) are used as supporters on both sides, and a plurality of method plates (MP) are installed by pressing them into the ground. Diagonal messenger to prevent sedimentation of the membrane from the inlet to remove the earth and sand of the lower part of the mesa plate (MP) and install the upper support material (US), the lower support material (DS) and the vertical support material (VS) at the same time. A first step central method plate installation step of cutting the plate installation groove VMPH and installing the side wall support material WS;
(5) the first stage of the earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed;
(6) Cut off the mesothelial method plate for preventing membrane collapse by cutting the opposite sides of the two steel pipes (SPPH) at a certain distance ahead of the membrane-breaking oblique message plate installation groove (VMPH) formed in step (2) above. The second step of the mesothelial mesopore plate installation groove preventing installation step;
(7) a second stage membrane for installing a plurality of membrane collapse preventing diagonal plate (VMP) so that the membrane collapse preventing diagonal plate installation groove (VMPH) exits toward the membrane and is in contact with each other in the shape of joining together; Collapsed diagonal messer plate installation step;
(8) between the two steel pipes (SP) in which the membrane collapse preventing diagonal plate (VMP) is installed, using the steel pipes (SP) as supporters on both sides and press-fitting into the ground to install a plurality of method plates (MP); Install the upper supporter (US), the lower supporter (DS) and the vertical supporter (VS) at the same time to remove the soil of the lower part of the method plate (MP) and at the same time install the diagonal messer plate for preventing the collapse of the membrane A second step central method plate installation step of installing the sidewall support material WS after cutting to the groove VMPH;
(9) the second stage earth plate installation step of installing a plurality of earth plate in the position passed by the method plate (MP) is pressed; And,
(10) the central repeat construction step of repeating the steps (6) to (9);
Underground tunnel excavation method using a method plate and steel pipe, characterized in that comprises a.
In claim 5,
After step (9) or (10),
(11) cut the outer wall of two steel pipes (SP) and the adjacent steel pipes (SP) on which the membrane collapse prevention diagonal plate plate (VMP) is installed to form a parallel membrane plate installation groove (HMPH) for preventing membrane collapse and the membrane collapse A first stage membrane collapse prevention parallel method plate installation step of installing a plurality of membrane collapse prevention parallel method plates (HMP) through the anti-mechanical parallel plate installation groove (HMPH);
(12) Between the two steel pipes (SP) on which the membrane collapse prevention parallel plate plate (HMP) is installed, the steel pipes (SP) are used as supporters on both sides and press-fitted into the ground to install a plurality of method plates (MP). The first step of the central method plate for removing the earth and sand of the lower part of the method plate (MP) and cutting the opposite side of the steel pipe (SP) from the entrance to the parallel method plate installation groove (HMPH) to prevent the collapse of the membrane. ;
(13) a first stage earth plate installation step of installing a plurality of earth plate at a position passed by the method plate MP; And,
(14) the side repeat construction step of repeating the steps (11) to (13) at a certain distance in accordance with the running speed of the (10) central repeat construction step;
Underground tunnel excavation method using a method plate and steel pipe, characterized in that comprises a.

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