KR20000065282A - tubular roof tunnel construction method - Google Patents

Abstract

PURPOSE: A pipe structure tunnel construction method is provided to construct a tunnel in downtown safely and precisely by excavating after a side wall is completed, and reduce the vibration and the noise. CONSTITUTION: A pipe structure tunnel construction method comprises the steps of; forming a vertical pit to the designed depth of tunnel(1); pressing a main(110) or a sub steel pipe(120) in the lateral direction of tunnel by a hydraulic jack; pressing a sub steel pipe from one main steel pipe to the other main steel pipe; excavating from a main steel pipe downward to make a space for side wall of tunnel during maintaining the sheeting; forming a side wall of tunnel by concreting in the space that is formed in the inside of main steel pipe; forming a roof by concreting into the one main steel pipe and into the sub-steel pipe and then into the other main steel pipe; excavating the inside of tunnel after the concrete of main and sub steel pipe; and forming a concrete layer in the floor of tunnel.

Description

Tubular roof tunnel construction method

The present invention relates to a tubular tunnel construction method, and more particularly, to a tubular tunnel construction method that can be safely installed without disturbing citizens walking, commercial activities and traffic during construction.

In general, tunnels are spaces created by digging soil or rock and beneath the surface of the earth. It is usually made by digging up the ground leaving the ground in the upper part, but it is also included in the tunnel by digging into the groove shape from the surface, making the tunnel structure in it, and then burying it again. This technique is used to create a relatively shallow subway road under the roads in the city. Today, the use and aspects of tunnels are diversified, digging into the ground, preventing dirt and rocks from collapsing and falling down, such as large cavities for underground power plants, underground car parking lots, warehouses, underground refineries, and underground roads. Constructing a structure that permanently supports conventional ground is also broadly called a tunnel.

The use of the tunnel includes traffic tunnels such as railroads and road tunnels, water tunnels for hydroelectric power generation, irrigation, and pipeline tunnels such as water and sewage and wire lines. In addition, underground power plants, substations, and underground cavities for storing oil can also be included in tunnels as tunnels. Tunnels are divided into rock and earth tunnels according to the geology to be excavated, and they are subdivided into mountain tunnels, urban tunnels, cutlery tunnels, open tunnels, shield tunnels and immersion tunnels depending on the construction site and construction method.

These tunnels have been developed by various construction methods, but have been progressed up to now, but not only do people's walking, commercial activities, and traffic problems, but also have a problem that adversely affects nearby structures due to severe earth pressure changes and ground behaviors. Therefore, there has been a continuous demand for the development of tunnel construction methods that can minimize and safely construct inconveniences and damages caused by citizens' walking, commercial activities and traffic.

Therefore, the main object of the present invention is to minimize the excavation and minimize the change of ground behavior and earth pressure by digging after completion of the roof and sidewall to safely and accurately build the tunnel in the city .

Another object of the present invention is to minimize the inconvenience of people walking or commercial activities and traffic to minimize the inconvenience of surrounding life due to tunnel construction.

Another object of the present invention is to provide a pleasant construction environment by minimizing noise and vibration.

Another object of the present invention is to maintain safety for the surrounding structure of the tunnel construction area.

1 is a side view showing a main steel pipe indentation state of the pipe structure tunnel drying method of the present invention.

Figure 2 is a plan view showing a main steel pipe indentation state of the pipe structure tunnel drying method of the present invention.

Figure 3 is a side view showing a sub-steel pipe indentation state in the main steel pipe of the pipe structure tunnel construction method of the present invention.

Figure 4 is a plan view showing a sub-steel pipe indentation state in the main steel pipe of the pipe structure tunnel drying method of the present invention.

5 is a front view showing a timber installation state in the main steel pipe of the tubular structure tunnel construction method of the present invention.

Figure 6 is a plan view showing in detail the timber trench of the tubular tunnel construction method of the present invention.

Figure 7 is a front view showing in detail the timber trench of the tubular tunnel construction method of the present invention.

8 is a concrete filling flowchart showing a concrete pouring sequence in the pipe during the tunnel construction method of the tubular structure of the present invention.

9 is a flow chart illustrating the excavation and ground concrete in the tunnel during the tubular tunnel construction method of the present invention.

Figure 10 is a perspective view showing a tunnel completed by installing the main steel pipe only on one side of the loop by the tube structure tunnel drying method of the present invention.

Figure 11 is a perspective view showing a tunnel completed by installing the main steel pipe on both sides of the loop by the tube structure tunnel drying method of the present invention.

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

One; Tunnel 10; Hydraulic Jack

110; Main steel pipe 120; Sub steel pipe

130; Concrete timber 140; support

In order to achieve the above object, the tunnel drying method of the present invention comprises the steps of forming a vertical shaft from the ground to the construction position of the tunnel vertically, and after forming the vertical shaft, the main steel pipe is left and right by means of a press-fit means in the vertical shaft. In step, the step of connecting in the longitudinal direction of the tunnel in order to press-in, the step of press-in the sub-steel pipe from the main steel pipe on the other side of the pressed left and right main steel pipe to the other main steel pipe, and excavation while maintaining the earth wall downward from the main steel pipe And pouring concrete into a space formed downward in the main steel pipe to form a tunnel sidewall, pouring concrete into the one main steel pipe, and pouring concrete into the sub steel pipe, and the other side. Placing concrete on the main steel pipe, and the concrete pouring after the other main steel pipe The inside of the box and the soil digging step, consists of steps for installing a concrete floor tunnel after completion of the destruction Tunnel soil shall be based on the feature that the technical configuration.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

1 is a side view showing a main steel pipe indentation state of the tube structure tunnel drying method of the present invention, Figure 2 is a plan view showing a main steel pipe indentation state of the tube structure tunnel drying method of the present invention, Figure 3 is a pipe structure of the present invention Figure 4 is a side view showing a sub-steel pipe indentation state in the main steel pipe of the tunnel drying method, Figure 4 is a plan view showing a sub-steel pipe indentation state in the main steel pipe of the tunnel construction method of the present invention, Figure 5 is a pipe structure tunnel construction of the present invention 6 is a plan view showing the timber trench in the tubular tunnel construction method of the present invention in detail, Figure 7 is a timber trench of the tubular tunnel construction method of the present invention. Figure 8 is a front view showing in detail, Figure 8 is a concrete filling order showing the concrete placing sequence in the pipe during the pipe structure tunnel construction method of the present invention FIG. 9 is a flow chart illustrating the excavation of soil inside a tunnel and a bottom concrete pouring process in a tubular tunnel construction method of the present invention, and FIG. 10 is a tunnel in which a main steel pipe is installed only at one side of a loop by the tubular tunnel construction method of the present invention. 11 is a perspective view showing the tunnel completed by installing the main steel pipe on both sides of the loop by the pipe structure tunnel drying method of the present invention.

As shown in Figures 1 to 11, the tunnel drying method of the present invention is to form a vertical shaft to the construction position of the tunnel (1) vertically from the surface, and after the vertical shaft is formed by using a press-in means in the vertical shaft Connecting the steel pipe 110 in the longitudinal direction of the tunnel at the right and left ends of the loop of the tunnel 1 and pressing the steel pipe 110, and the other main steel pipe 110 from one of the main steel pipes 110 of the pressed left and right main steel pipes 110. Press-fitting the sub steel pipe (120), excavating and maintaining the earth wall downward from the main steel pipe (110) to form a space for the tunnel (1) side wall, and downward in the main steel pipe (110) Placing concrete in the formed space to form the tunnel (1) side wall, the step of filling the concrete in the main steel pipe 110, the other side main steel pipe 110, the other side of the main steel pipe 110, and hardened sequentially, the main steel pipe (110) After the internal concrete hardening of the sub-steel pipe 120, and the internal soil digging step of the tunnel (1), and after the completion of the internal soil excavation of the tunnel (1) comprises a step of installing concrete on the bottom of the tunnel (1).

As shown in Figure 1 and 2, in order to penetrate the main steel pipe 110 and sub-steel pipe 120 in the ground to build a vertical shaft up to the position of the tunnel (1) and press-in means such as a hydraulic jack 10 in the interior of the vertical shaft Install and press the main steel pipe 110 to the predetermined depth to the left and right ends corresponding to the loop of the tunnel (1) to remove the dirt introduced by the press-fit of the main steel pipe (110).

As shown in FIG. 3 and FIG. 4, when the press-fitting of the main steel pipe 110 is completed, the hydraulic jack 10, which is a press-fit means, is installed in one main steel pipe 110, and the other main steel pipe 110 is installed at one main steel pipe 110. The sub-steel pipe 120 is pressed in and connected, but the connection parts of the sub-steel pipes 120 of the left and right main steel pipes 110 are incised and connected to each other, and then the soil introduced by the indentation of the sub-steel pipes 120 is removed. .

5 to 7, when the installation of the sub-steel pipe 120 is completed, the inner lower side of the left and right main steel pipe 110 is cut and excavated downward through the incision. At this time, while installing the concrete timber 130 on both sides in order to prevent the collapse of the excavation surface is excavated to a predetermined depth in the underground direction. Here, by installing the support 140 between the concrete timber 130 to support the concrete timber 130 installed on both sides.

As shown in FIG. 8, when the timber trenches for forming the sidewalls of the tunnel 10 are completed, first, the sidewalls of the tunnel 1 are formed by weaving reinforcing bars inside the left and right timber traps, and then filling the concrete to form one side main steel pipe 110. The sub steel pipe 120 and the other main steel pipe 110 in order to fill the concrete to form a loop of the tunnel (1).

As shown in FIG. 9, when the concrete filled in the timber trench, the sub-steel pipe 120 and the main steel pipe 110 is cured, the soil under the roof of the tunnel is excavated and the bottom concrete is installed inside the lower side of the left and right side walls. The tunnel 1 is formed into a box like 11.

Meanwhile, as shown in FIG. 10, the main steel pipe 110 is pressed into only one side of the loop of the tunnel 1 and the sub steel pipe 120 is pressed into the other side of the loop from the main steel pipe 110, but the other side of the sub steel pipe 120 is pressed. In the lower portion of the sub-steel pipe 120 in the longitudinal direction of the tunnel (1) to form a timber trench downward as described above, and fill the concrete inside the timber trench may form a sidewall of the tunnel (1).

Here, the present invention to improve the strength after the concrete is poured by using a bundle of various reinforcing materials or reinforcement to the concrete.

Here, the tunnel 1 of the present invention is not limited to its size, and is used by adjusting the size of the tunnel 1 to be constructed by varying the specifications of the main steel pipe 110 or the sub steel pipe 120.

As described above, the tunnel drying method of the present invention comprises the steps of forming a vertical shaft up to the construction position of the tunnel 1 vertically from the ground, and after forming the vertical shaft, the main steel pipe 110 by using a press-fit means in the vertical shaft. The step of connecting the inlet in the longitudinal direction of the tunnel in the right and left ends of the loop of the tunnel (1), and the sub-steel pipe from one of the main steel pipe 110 of the pressed left and right main steel pipe 110 to the other main steel pipe 110 Pressing 120, excavating while maintaining the earth wall downward from the main steel pipe 110 to form a space for the tunnel (1) side wall, concrete in the space formed downward in the main steel pipe (110) Forming the tunnel (1) side wall, and filling concrete in the main steel pipe (110) sub steel pipe (120) and the other main steel pipe (110) in order to harden, and the main steel pipe (110) sub River After the internal concrete hardening of the 120 (120) the internal soil digging step of the tunnel, and after the completion of the internal soil digging tunnel (1) consists of the step of installing concrete on the bottom of the tunnel (1) safely and accurately the tunnel in the city It can be built, and in particular, there are few elements that hinder the walking, commercial activities and traffic flow of citizens, which minimizes the inconvenience of surrounding life due to tunnel construction, and also provides a pleasant construction environment by minimizing noise and vibration. After hardening by forming the tunnel sidewalls and loops, the soil inside the tunnel is removed, so there is little change in earth pressure and ground behavior, thereby removing the adverse effects on the surrounding structures of the tunnel construction area, which makes it safe to construct. .

Claims (2)

Forming a vertical shaft from the ground to the construction position of the tunnel 1 vertically; Forming the vertical shaft and then connecting the main steel pipe 110 by pressing in the vertical shaft sequentially from the left and right ends of the loop 1 in the longitudinal direction of the tunnel; Press-fitting the sub-steel pipe 120 from one of the main steel pipes 110 to the other main steel pipe 110 of the press-fitted left and right main steel pipes 110; Excavating while maintaining the earth wall downward from the main steel pipe 110 to form a space for the tunnel 1 side wall; Pouring concrete into a space formed downward in the main steel pipe 110 to form a tunnel 1 side wall; A loop forming step of sequentially filling concrete to one side of the main steel pipe 110 and the sub steel pipe 120 to the other main steel pipe 110; An internal soil digging step of the tunnel 1 after the internal concrete hardening of the main steel pipe 110 and the sub steel pipe 120; Pipe tunnel construction method, characterized in that consisting of a bakbak complete step of installing concrete on the bottom of the tunnel (1) after the completion of the excavation of the inside of the tunnel (1). The method of claim 1 The main steel pipe 110 is pressed into only one side of the loop of the tunnel 1, and the sub steel pipe 120 is pressed into the other side of the loop from the main steel pipe 110, but the length of the tunnel 1 is at the other side of the sub steel pipe 120. A tubular tunnel construction method, characterized in that the side wall of the tunnel (1) by forming a timber trench in the direction.