KR20230047673A - the improvement structure and this formation method of the oscillation work outlet facilitating the input of the propulsion pipe - Google Patents

Abstract

The present invention installs an excavation machine when constructing a small-diameter underground tunnel or burying a sewage pipe for burial of urban infrastructure such as water supply and sewer pipes, electricity and communication lines, and discharges soil and rock mass generated during excavation to the ground. It relates to an improved structure of a launching work tool that facilitates the input of a propulsion pipe that has improved the structure of a vertical work tool that serves as a passage and a method of forming the same, In a vertical work tool in which the entrance packing is installed in the launching shaft of a steel pipe that excavates the inside, pours concrete on the floor, installs a propulsion jack and a reaction wall therein, and forms a horizontal pipeline toward the arrival port. A steel pipe is press-fitted horizontally to a certain depth from the launching shaft toward the planned tunnel, and the inside of the steel pipe is excavated to form a horizontal workpiece intersecting with the vertical workpiece, and the entrance packing and synthetic resin order are applied to the inner end area of the horizontal workpiece. It is characterized in that the plates are installed at regular intervals.

Description

The improvement structure and this formation method of the oscillation work outlet facilitating the input of the propulsion pipe}

The present invention is a small-diameter underground tunnel built by a small-diameter propulsion method for burial of urban infrastructure such as water supply and sewer pipes, electricity and communication lines, or when a sewage pipe is buried, an excavation machine is installed and soil generated during excavation An improved structure of a launching tool that facilitates the insertion of a long propulsion tube by improving the structure of a vertical work tool that serves as a passage for discharging rocks and rocks to the ground so that a long length of propulsion pipe can be easily inserted through the tool and a method of forming the same.

In general, in order to secure urban infrastructure such as water supply and sewage, electricity and communication lines, and gas pipes, excavation mounted on the tip of a cylindrical excavator is used rather than the open-cut tunnel propulsion method, which minimizes traffic obstacles and generates a lot of noise, dust, and ground subsidence during construction. By rotating the cutter head to excavate the ground, and preventing the collapse of the face with water pressure or soil pressure, the propulsion pipe brought into the work area is press-fitted into the tunnel with a hydraulic jack to connect it. The non-cutting method of burying the Hume pipe is mainly used.

In this non-cutting method, the ground is vertically excavated to the planned depth to form a work area, and then an excavator is placed in the front within the work area to form a horizontal pipeline, and a hydraulic propulsion jack is installed on the reaction wall at the rear to Excavating while moving the excavator forward, inserting the propulsion pipe between the hydraulic propulsion jack and the excavator in the state of retracting the hydraulic propulsion jack, extending the hydraulic propulsion jack and transporting it forward, and retracting the propulsion jack to move another propulsion pipe. The pipe is formed by sequentially connecting the propulsion pipes in a pinched connection method.

The connection work of such a propulsion pipe is performed inside the vertically formed launching work area. In the small-diameter tunnel construction method in the downtown area, the work area needs to be formed excessively large in consideration of various conditions such as the surrounding environment in the downtown area. It is formed by embedding a steel pipe with a diameter of about 3 to 5 m of an appropriate size without a hole.

On the other hand, in the case of a Hume pipe in which steel wires or reinforcing bars are inserted into the inside of a concrete pipe in which the propulsion pipe that is put into the inside of the launching tool to form a tunnel is produced in two types of standards, usually 1.2m and 2.5m in length, There is not much difference in price, so the use of 2.5m Hume pipe is preferred in the actual field.

However, in the case of a launching tool with a small diameter, since the space is occupied by various facilities and materials such as a reaction wall and a propulsion jack installed inside, it is easy to insert the propulsion pipe into the tool from the ground using a crane and place it horizontally. Due to the problem of not doing so, there was a problem in that the length was short and the 1.2m Hume pipe, which had no difference in price more than 2.5m, had to be used, which increased the construction cost while reducing the efficiency of tunnel excavation.

An object of the present invention is to solve the above problems, and by improving the structure of the launching tool, it is possible to easily connect a 2.5m propulsion pipe to a small diameter tool, and to improve the launching tool that facilitates the input of the propulsion pipe. It is to provide a structure and a method of forming the same.

As a means for achieving this object, the present invention excavates the inside of a steel pipe vertically pressed into the ground by a certain depth by a steel pipe presser, pours concrete on the floor, and installs a propulsion jack and a reaction wall therein, In a vertical work tool in which entrance packing is installed in the launch shaft of a steel pipe forming a horizontal pipeline toward the arrival port, the steel pipe is horizontally pushed in by a certain depth toward the planned tunnel from the launch shaft and the inside of the steel pipe is excavated To form a horizontal work tool that intersects with the vertical work device, and by installing entrance packing and a synthetic resin shielding plate at regular intervals at the inner end region of the horizontal work device, the launching work tool that facilitates the introduction of the propulsion pipe Provides an improved structure.

In addition, grouting is formed by injecting a grout material into the ground around the horizontal work tools.

In addition, as a steel pipe indenter installed at the work hole installation point on the ground, the steel pipe is press-fitted to a certain depth, the soil inside the steel pipe is taken out by excavation work, the floor concrete is poured, and entrance packing is installed in the launch shaft Forming a vertical work tool;

Grouting is performed by forcibly injecting grout material from the ground over a wide range of the ground where the horizontal work tool outside the launching shaft of the work tool is installed, and reinforcing the strength of the soft ground by preventing subsidence caused by ground disturbance and groundwater runoff. ;

The steel pipe is circularly cut along the inside of the entrance packing installed on the inner wall of the steel pipe of the vertical work tool to form a launching shaft, through which a steel pipe of a predetermined length is horizontally pressed in the direction of the planned pipe line, and then the inside is broken to open a horizontal Forming a work tool, and sequentially installing an entrance packing and a synthetic resin shielding plate at intervals at an inner end region of the horizontal work tool;

When the installation of the horizontal work tool is completed, a reaction wall and a propulsion jack are installed inside the vertical work tool, and the excavator is inserted to propel the excavator to the horizontal work tool by the propulsion jack, and the excavation is carried out while penetrating the entrance packing and the synthetic resin liner plate. Forming a conduit by sequentially connecting the conduits;

It provides a method of forming a launching tool that facilitates the introduction of a propulsion pipe made of.

In this way, the present invention is a work of forming a pipeline by forming a horizontal work tool connected to the depth of excavation in a vertical launch work tool to be crossed so that it can be easily connected by inserting a long length propulsion pipe into a small diameter start work tool. It has the effect of increasing efficiency, reducing construction cost and shortening construction period.

Figures (1a) (1b) (1c) (1d) (1e) (1f) (1g) are explanatory views sequentially showing the construction method according to the present invention
Figure 2 is an enlarged view of a state in which the propulsion pipe is continuously connected according to the present invention
Figure 3 is an enlarged cross-sectional view of the "A" portion of FIG.

Hereinafter, embodiments of the present invention will be described in detail, focusing on parts necessary for understanding operations and actions according to the present invention with reference to the accompanying drawings.

Since the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be

While describing the embodiments of the present invention, descriptions of unnecessary technical details that are well known in the technical field to which the present invention pertains and are not directly related to the present invention are omitted for clearer delivery without obscuring the gist of the present invention.

As shown in FIGS. 1 to 3, the improved structure of the launch tool for facilitating the insertion of the propulsion pipe of the present invention is to open the inside of the steel pipe 10 vertically pressed into the ground by a certain depth by a steel pipe presser. After digging, concrete (11) is poured on the floor, a propulsion jack (12) and a reaction wall (13) are installed inside, and an entry is made to the launching shaft (14) of the steel pipe (10) forming a horizontal pipeline toward the arrival hole. In the vertical work tool 50 with the run packing 15 installed, the steel pipe 20 is horizontally pushed in by a certain depth toward the planned tunnel from the launch shaft 14, and the inside of the steel pipe 20 is excavated to form a horizontal work tool 60 intersecting with the vertical work tool 50, and the entrance packing 21 and the synthetic resin shield plate 22 are spaced apart from each other in the inner end region of the horizontal work tool 60 It is characterized by being installed.

A grout material is injected into the ground around the horizontal work tools 60 to form grouting 30 .

The entrance packing 21 and the synthetic resin shielding plate 22 are fastened with bolts 41 to the bracket 40 welded to the inner wall of the horizontal steel pipe 20.

The diameter of the steel pipe 20 forming the horizontal work piece 60 is sufficiently larger than the tunnel forming the pipe and smaller than the diameter of the vertical work piece 50, and the length allows the propulsion pipe to be introduced horizontally. It is made of an appropriate length with a margin to do so.

Since the horizontal work piece 60 is connected to the launch shaft 14 of the vertical work piece 50 and formed horizontally in a crossed shape, when the excavator is installed at the front end of the vertical work piece 50, the propulsion jack 12 When a long Hume pipe, that is, a propulsion pipe, is inserted through the vertical work tool 50 when sufficient free space is formed between the propelling pipe and the vertical work tool 50, the direction can be changed by the horizontal work tool 60, so that the sequential connection of the propulsion pipe is easy. will do

In the inner end region of the horizontal work tool 60, a synthetic resin water blocking plate 22 is installed to block the inflow of groundwater and excavated soil in the process of installing the horizontal work tool 60, and the synthetic resin water blocking plate Entrance packing 21 is installed at regular intervals on the inside of 22 to block the inflow of groundwater or excavated soil during the excavation process.

As described above, since the horizontal work tools 60 are installed to cross the vertical work tools 50 in the direction of the tunnel, the internal space of the launch work tools is expanded, so that the propulsion jack 12 installed inside the vertical work tools 50 And the reaction wall 13, and the narrow space occupied by various excavation equipment is secured, so when a 2.5m Hume pipe is input during excavation, the inclined state as shown in FIG. 1 (e) by the horizontal work tool 60 Since it can be easily connected to the head propulsion pipe horizontally as it can be brought in to change the direction, it provides an effect of increasing work efficiency and also has the advantage of reducing the cost of the hume pipe.

The forming process of the work tool of the present invention is made by the following steps.

1st step (formation step of vertical work tool)

As a steel pipe indenter installed at the work tool installation point on the ground, the steel pipe 10 is pressed in at a certain depth and another steel pipe 10 is pressed in while welding another steel pipe 10 to the upper surface of the steel pipe 10 as much as the required depth. After the soil inside is taken out by excavation work, the floor concrete 11 is poured, and the entrance packing 15 is installed in the launch shaft 14 to form a vertical work tool 50.

Step 2 (Grouting step)

Grouting 30 is performed by forcibly injecting grout material from the ground over a wide range of the ground where the horizontal work tool 60 outside the launching shaft 14 of the work tool is installed, and subsidence due to ground disturbance and groundwater leakage is prevented. It reinforces the strength of the soft ground.

3rd step (steel pipe horizontal press-in step)

The steel pipe 10 is circularly cut along the inside of the entrance packing 15 installed on the inner wall of the steel pipe 10 of the vertical work tool 50 to form the launching shaft 14, through which the steel pipe 20 of a predetermined length ) is horizontally pressed in the direction of the planned pipeline using a steel pipe indenter. When the steel pipe 20 is press-fitted horizontally, the inside of the steel pipe 20 is broken to form a horizontal work tool 60 communicating with the vertical tool 50, and an ent is formed in the inner end region of the horizontal tool 60. The run packing 21 and the synthetic resin shielding plate 22 are installed sequentially at intervals.

The entrance packing 21 and the synthetic resin shielding plate 22 are fastened with bolts 41 to the bracket 40 welded to the inner wall of the horizontal steel pipe 20.

The synthetic resin water plate 22 is penetrated by an excavator to prevent groundwater and soil from flowing into the inside during the formation of the horizontal work tool 60, and the entrance packing 21 is a vertical work tool during excavation work ( 50) is closely attached to the outer circumference of the propulsion pipe together with the entrance packing 15 installed to prevent ground water and soil from entering the work tool.

4th stage (reaction wall and excavator installation)

When the installation of the horizontal work piece 60 is completed, the reaction wall 13 and the propulsion jack 12 are installed inside the vertical work piece 50, and the excavator is put into the horizontal work piece by the propulsion jack 12. (60), and while excavating through the entrance packing 21 and the synthetic resin diaphragm 22, the propulsion pipes are sequentially connected to form a conduit.

In this process, the horizontal work tool 60 is cross-connected with the vertical work tool 50 to expand the internal space of the work tool, so that it is easy to change the direction when inserting the 2.5m propulsion pipe, so that the long length of the propulsion pipe is inserted and installation is possible

In the present invention formed in this way, since the vertical work tool 50 and the horizontal work tool 60 are in communication with each other, the space of the work tool is greatly expanded, so that the oscillation work and the carrying out of the force are greatly expanded And it is convenient to carry in various materials, and even when a long propulsion pipe of 2.5 m is introduced, the direction of the propulsion pipe can be changed as shown in (e) of FIG. 1, so that the horizontal connection of the propulsion pipe is easy.

Reference Numerals 10: steel pipe 11: concrete 12: propulsion jack 13: reaction wall 14: launch shaft 15: entrance packing 21: entrance packing 20: steel pipe 22: water shield 30: grouting 40: bracket 41: bolt 50: vertical work hole 60 : horizontal working tool

Claims (3)

By excavating the inside of the steel pipe 10 vertically pressed into the ground by a steel pipe presser to a certain depth, concrete 11 is poured on the floor, and a propulsion jack 12 and a reaction wall 13 are installed inside, In the vertical work tool (50) in which the entrance packing (15) is installed in the launch shaft (14) of the steel pipe (10) forming a horizontal conduit toward the arrival port, a certain depth from the launch shaft (14) toward the planned tunnel. The steel pipe 20 is press-in horizontally as much as possible and the inside of the steel pipe 20 is excavated to form a horizontal work tool 60 intersecting with the vertical work tool 50, and the inside of the horizontal work tool 60 An improved structure of a launching tool that facilitates the introduction of a propulsion pipe, characterized in that the entrance packing 21 and the synthetic resin shielding plate 22 are installed at regular intervals in the end region. [Claim 2] The improved structure of the launch tool according to claim 1, wherein a grout material is injected into the ground around the horizontal tool (60) to facilitate the insertion of the propulsion pipe on which the grouting (30) is formed. As a steel pipe indenter installed at the installation point of the work area on the ground, the steel pipe (10) is pressed in at a certain depth, the earth and sand inside the steel pipe (10) are taken out by excavation work, and then the floor concrete (11) is poured and the launch shaft Forming a vertical work tool 50 by installing an entrance packing 15 in (14);
Grouting 30 is performed by forcibly injecting grout material from the ground over a wide range of the ground where the horizontal work tool 60 outside the launching shaft 14 of the work tool is installed, and subsidence due to ground disturbance and groundwater leakage is prevented. reinforcing the strength of soft ground;
The steel pipe 10 is circularly cut along the inside of the entrance packing installed on the inner wall of the steel pipe 10 of the vertical work tool 50 to form the launch shaft 14, through which the steel pipe 20 of a predetermined length is After horizontally press-fitting in the direction of the pipe, the inside is excavated to form a horizontal work tool 60 communicating with the vertical work tool 50, and the entrance packing 21 and synthetic resin order are placed in the inner end area of the horizontal work tool 60 sequentially installing the plates 22 at intervals;
When the installation of the horizontal work piece 60 is completed, the reaction wall 13 and the propulsion jack 12 are installed inside the vertical work piece 50, and the excavator is put into the horizontal work piece by the propulsion jack 12. Forming a conduit by sequentially connecting propulsion pipes while propelling them with 60 and excavating through the entrance packing 21 and the synthetic resin shielding plate 22;
Method of forming a launching tool that facilitates the introduction of a propulsion tube made of

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