JPH04357293A - Flexible pipe and executing method thereof - Google Patents

Abstract

PURPOSE:To improve the execution efficiency by providing a slit type cut narrow hole, which is extended in the circumferential direction, in the peripheral wall of a steel pipe, and providing a filling hole of cement milk in the peripheral wall, and providing an air exhausting hole in the tip of the pipe. CONSTITUTION:When a pipe 1 is inserted into a pipe insertion hole 25 formed in the natural ground, and cement milk is filled into the pipe 1 through a filling pipe 31, the cement milk is filled in the pipe 1, while being filled in the insertion hole 25 outside of the pipe 1 through a filling hole formed in the peripheral wall of the pipe 1. At this stage, opening of the insertion hole 25 is closed by an opening caulking 32, and the air inside of the pipe 1 is exhausted from an air exhausting pipe 30 to the outside, and the air outside of the pipe 1 is exhausted from the pipe 30 to the outside through an air hole 13 of a cap fitted in the tip of the pipe 1. When the filled cement milk is solidified, a flexible pipe bolt or a miniature pipe roof is formed.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pipe used for reinforcing ground during tunnel excavation, and a method for constructing the pipe.

0002

[Prior Art] Conventionally, in tunnel excavation, mirror rock bolts with a diameter of 26 m were used to form mirror rock bolts for the purpose of reinforcing the face surface.
A glass fiber bolt with a length of 4 m is used.

[0003] In the construction method using the glass fiber bolt, a bolt insertion hole is drilled in the ground, and then a mortar-filled pipe is inserted into the bolt insertion hole to the depths of the bolt insertion hole. Then, while filling the bolt insertion hole with mortar using the mortar filling pipe, the mortar filling pipe is pulled out, and then the glass fiber bolt is inserted into the bolt insertion hole filled with mortar.

[0004] Furthermore, in order to prevent preliminary settlement during tunnel excavation and to prevent the roof from collapsing, there is a method of constructing a mini-pipe roof using deformed steel bars with a diameter of 25 mm and a length of 2.5 m to 4 m and filling them with mortar.

[0005] Mirror rock bolts installed using the conventional method have a small permissible load per bolt, and in geological conditions where the wall of the bolt insertion hole collapses, mortar filling is inhibited by collapsed earth and sand. Furthermore, since the length of each application was short, it was time-consuming and inefficient.

[0006] If the mirror surface of a mini-pipe roof that uses deformed steel bars collapses, it will generally be 2m to 2.5m.
Since the building collapses to the depth of m, it is not possible to reliably prevent it from sinking in advance and prevent the top from collapsing.

[0007]

[Problems to be Solved by the Invention] The present invention has been made in view of the above matters, and provides a pipe that has a large allowable load, can be formed into a long length, and can be reliably filled with cement milk, and uses the pipe. The technical challenge is to develop a method for constructing pipe bolts and a mini-pipe roof.

[0008]

[Means for Solving the Problems] In the pipe of the present invention, a slit-shaped cutout hole 2 extending in the circumferential direction is provided in the peripheral wall of a steel pipe 1, and a cement milk injection hole 3 is provided in the peripheral wall. An air vent hole 13 was provided at the tip of the pipe 1 to make it a flexible pipe.

The method for constructing a flexible pipe bolt using the flexible pipe of the present invention was as follows.

[0010] That is, in the ground of the tunnel to be excavated,
A pipe insertion hole 25 is formed, and the steel pipe 1 to be inserted into the pipe insertion hole 25 is provided with a slit-shaped cutout hole 2 extending in the circumferential direction on the peripheral wall, and a cement milk injection hole 3 on the peripheral wall. The tip of the pipe 1 is formed into a flexible pipe with an air vent hole 13, and an air vent pipe 30 that opens near the tip of the pipe 1 is inserted into the pipe 1. A cement milk injection pipe 31 that opens near the base of the pipe 1 is inserted, and this pipe 1 is inserted into the pipe insertion hole 25.
The mouth of the pipe insertion hole 25 is closed, cement milk is injected through the injection pipe 31, and the air inside is discharged from the air vent pipe 30.
The construction method was a flexible pipe bolt that filled the inside and outside of the pipe with cement milk.

The method for constructing a mini-pipe roof using the flexible pipe of the present invention was as follows.

That is, a pipe insertion hole 25 is formed in the ground at the outer periphery of the tunnel to be excavated, and the steel pipe 1 to be inserted into the pipe insertion hole 25 has a slit-shaped cutout extending in the circumferential direction on the peripheral wall. A flexible pipe is formed with a small hole 2, an injection hole 3 for cement milk in the peripheral wall, and an air vent hole 13 at the tip of the pipe 1, and inside the pipe 1 there is a hole near the tip of the pipe 1. Insert the air vent pipe 30 that opens into the pipe 1,
A cement milk injection pipe 31 that opens near the base of the pipe 1 is inserted, and then this pipe 1 is inserted into the pipe insertion hole 25, the mouth of the pipe insertion hole 25 is closed, and the injection pipe 31 is opened. Inject cement milk and discharge the internal air from the air release pipe 30.
The mini-pipe roof construction method involves filling the inside and outside of the pipe 1 with cement milk.

[0013]

[Operation] According to the present invention, when cement milk is injected through the injection pipe 31 into the pipe 1 inserted into the pipe insertion hole 25 formed in the ground, the cement milk is filled into the pipe 1, and the cement milk is filled into the pipe 1. From the hole 3, the pipe insertion hole 25 outside the pipe 1 is also filled.

[0014]The air inside the pipe 1 is directly released from the air bleed pipe 30, and the air outside the pipe 1 is passed through the air bleed hole 13 at the tip of the pipe 1 to the outside from the air bleed pipe 30. The cement milk is discharged, and the pipe insertion hole 25 and the pipe 1 are filled with cement milk. Then, the filled cement milk solidifies to form the flexible pipe bolt 6 or the mini pipe roof 45.

After the cement milk is solidified and the flexible pipe bolt 6 is formed, when the surrounding ground is excavated, the base of the flexible pipe bolt 6 is exposed in front of the face. Therefore, by bending the flexible pipe bolt 6 at the portion of the pipe 1 where the cutout hole 2 is provided, the tunnel can be excavated again.

In the case of the mini pipe roof 45, most of the mini pipe roof 45 is installed in the ground where no tunnel is excavated, but the base of the mini pipe roof 45 is
It appears in the excavated part of the tunnel. Therefore, its base is bent at the portion of the pipe 1 where the cutout hole 2 is provided to the back side of the shoring formed by the H-shaped shoring steel 41. Then, concrete is sprayed on the inside thereof to form a shotcrete wall 39.

[0017]

Embodiment FIGS. 1 and 2 are diagrams for explaining one embodiment of the flexible pipe of the present invention. In this embodiment, a slit-like cutout hole 2 having a width of 5 mm and extending in the circumferential direction is provided in the peripheral wall of a steel pipe 1 having a diameter of 60.5 mm, a thickness of 2.3 mm, and a length of 5.5 m. Then, the cutout pore 2
is formed to have a length extending halfway around the pipe 1.

Furthermore, the cutout holes 2 are formed in the pipe 1 by 5 holes.
Adjacent cutout holes 2 are formed at an interval of 0.00 mm so as to be provided around opposite sides of the pipe 1. In the center of each cutout hole 2,
A cement milk injection hole 3 with a diameter of 15 mm is provided.

A cap 11 is fitted to the tip of the pipe 1, and the cap 11 is provided with an air vent hole 13 having a diameter of 10 mm.

A center rise 10 formed by attaching a ring is provided near the tip and base of the pipe 1. and pipe insertion hole 2
A gap is formed between the cement milk and the hole wall of 5.
It is formed so that it can easily flow around the outer periphery of the pipe 1. 3 and 4 show the main parts of a long pipe (22 m) formed by connecting pipes 1 with reinforcing plates 18. In this embodiment, gutter-shaped reinforcing plates 18 are applied to the outside of the joint of the pipe 1, and the sides thereof are fixed to the pipe 1 by welds 19. Then, the reinforcing plate 18
is formed so as to cover most of the pipes 1 on the tip side (embedded side) among the pipes 1 to be connected.

FIG. 5 shows an iron cone 12 with an air vent hole 13 fitted to the tip of the pipe 1 in place of the cap 11 of the above embodiment. This iron cone 12 is used when inserting the pipe 1 into the pipe insertion hole 25 by fitting onto the tip of the pipe 1 and driving the pipe 1 into crumbling earth. This iron cone 12 is attached to the flexible pipe bolt 6 after tunnel excavation.
Collect from.

FIGS. 6 to 11 are diagrams for explaining one embodiment of a method for constructing a flexible pipe bolt (tunnel mirror lock bolt) using the flexible pipe 1 described in the above embodiment.

In this embodiment, a mirror shotcrete wall 40 is formed on the face of the ground where a tunnel is to be excavated, and seven pipe insertion holes 25 are made from this face using conventionally known NA.
The holes were drilled with a TM mechanical system drilling tool 26. and,
This drilled pipe insertion hole 25 had a diameter of 86 mm and a length of 11.4 m.

Next, as shown in FIG. 7, the pipe 1, which is a flexible pipe, is inserted into the pipe insertion hole 25.
are connected by a reinforcing plate 18 and are formed to have a length of 11 m. A polyethylene air release pipe 30 that opens near the tip of the pipe 1 is inserted into the pipe 1, and a polyethylene cement milk pipe 30 that opens near the base of the pipe 1 is inserted into the pipe 1. An injection pipe 31 is inserted.

Then, the pipe 1, which is a flexible pipe formed as described above, is inserted into the pipe insertion hole 25. When this pipe 1 is installed so that the cutout pores 2 are located on the side surface of the pipe 1, it becomes highly resistant to vertical forces. Next, as shown in FIG. 8, the mouth of the pipe insertion hole 25 is filled with quick setting cement to form a mouth caulking 32 to close the mouth.

Next, when cement milk is injected from the injection pipe 31, the cement milk is filled into the pipe 1 and also filled into the pipe insertion hole 25 outside the pipe 1 from the injection hole 3 of the pipe 1. be done.

The air inside the pipe 1 flows directly from the air bleed pipe 30, and the air outside the pipe 1 passes through the air bleed hole 13 of the cap 11 fitted to the tip of the pipe 1. The air is discharged to the outside from the air vent pipe 30. and inside the pipe insertion hole 25, and
Pipe 1 is filled with cement milk.

Then, as shown in FIG. 9, cement milk leaks from the air vent pipe 30, indicating that the interior is filled with cement milk. , close the air vent pipe 30.

FIGS. 12 to 14 show the tunnel excavation state after the flexible pipe bolt 6 is formed according to the above embodiment.

As shown in FIG. 12, with the cement milk solidified and the flexible pipe bolt 6 formed,
As shown in Figure 13, when the tunnel face is excavated,
The base of the flexible pipe bolt 6 is exposed on the face.

Then, the exposed base of the flexible pipe bolt 6 is bent at the portion of the pipe 1 where the cutout hole 2 is provided, and the ground is excavated. Then, concrete is sprayed onto the wall of the excavated tunnel to form a shotcrete wall 39, and the flexible pipe bolt 6 is
When cut at the bent part, the result will be as shown in FIG. 14.

FIGS. 15 and 16 are diagrams for explaining one embodiment of a method for constructing a mini-pipe roof using the flexible pipe.

[0033] In this embodiment, the ground at the outer circumferential portion above the tunnel to be excavated is made such that the inclination angle θ is 15 degrees.
Pipe insertion holes 25 are drilled radially, and in the same manner as in the formation of the flexible pipe bolts 6 described above, a 6 m long mini pipe roof 45 is installed in the pipe insertion holes 25 at intervals of 300 mm in the circumferential direction of the tunnel. It was formed in this way.

The method for forming the mini-pipe roof 45 is substantially the same as the method for forming the flexible pipe bolt 6 described above, so a description of this similar method will be omitted.

The mini-pipe roof 45 is installed in the ground where no tunnel is excavated, but the base of the mini-pipe roof 45 is exposed in the excavated part by the excavation of the tunnel, so the base is connected to the pipe 1. Bend it to the back side of the support structure formed by the H-shaped support steel 41 at the part where the cutout hole 2 is provided.

Then, concrete is sprayed onto the inside of the base of the mini-pipe roof 45 to form a shotcrete wall 39.

[0037]

Effects of the Invention In the present invention, since the steel pipe 1 is inserted into the pipe insertion hole 25 formed in the ground, the pipe 1 can be made strong with a large diameter, and the flexible pipe bolt 6 and the mini pipe can be easily formed. The roof 45 can be made strong.

[0038] Since the pipe 1 is strong, the pipe 1 can be formed into a long shape, and can be used as a flexible pipe bolt.
6 and the mini-pipe roof 45 can be efficiently constructed, and the construction cost can be reduced.

Furthermore, since the pipe 1 is provided with the cutout holes 2, even if the pipe 1 is made of steel and has a large diameter, the flexible pipe bolt 6 and the mini pipe roof 45 will not fit through the cutout hole 2 of the pipe 1. The part provided with the hole 2 can be easily bent, making tunnel excavation and subsequent construction easy.

The cement milk injected into the pipe 1 is filled into the pipe 1 and is also filled from the injection hole 3 of the pipe 1 to the pipe insertion hole 25 outside the pipe 1, and the cement milk is filled into the pipe 1. Since the air in the pipe insertion hole 25 is discharged from the tip of the pipe 1 to the outside through the air release pipe 30, the inside of the pipe 1 and the pipe insertion hole 25 can be reliably filled with cement milk.

[Brief explanation of the drawing]

FIG. 1 is a plan view of a flexible pipe of the present invention.

FIG. 2 is a side view of the flexible pipe of the present invention.

FIG. 3 is a diagram showing a main part of a connecting portion of a flexible pipe according to the present invention.

FIG. 4 is a diagram showing a cross section of a connecting portion of the flexible pipe of the present invention.

FIG. 5 is a cross-sectional view of the iron cone of the present invention.

FIG. 6 is a diagram illustrating the drilling state of the pipe insertion hole of the present invention.

FIG. 7 is a diagram showing a flexible pipe inserted into the pipe insertion hole of the present invention.

FIG. 8 is a diagram showing the cement milk injection state of the present invention.

FIG. 9 is a diagram showing a state filled with cement milk of the present invention.

FIG. 10 is a cross-sectional view of the container filled with the cement milk of the present invention, viewed from the front.

FIG. 11 is a diagram showing a face surface on which the flexible pipe bolt of the present invention is installed.

FIG. 12 is a cross-sectional view of the installed portion of the flexible pipe bolt of the present invention, viewed from the side.

FIG. 13 is a sectional view showing the state of excavation of a portion where the flexible pipe bolt of the present invention has been installed.

FIG. 14 is a sectional view showing the state of excavation of a portion where the flexible pipe bolt of the present invention has been installed.

FIG. 15 is a cross-sectional view of the installed portion of the mini-pipe roof of the present invention, seen from the side.

FIG. 16 is a front view of the installed part of the mini-pipe roof of the present invention.

[Explanation of symbols]

1. pipe 2. Cutting pore 3. injection hole 6. flexible pipe bolts 13. Air vent hole 25. Pipe insertion hole 30. Air vent pipe 31. injection pipe

Claims (3)

[Claims] 1. A slit-shaped cutout hole 2 extending in the circumferential direction is provided in the peripheral wall of a steel pipe 1, and a cement milk injection hole 3 is provided in the peripheral wall, and the tip of the pipe 1 is provided with: A flexible pipe with air vent holes 13. 2. A pipe insertion hole 25 is formed in the ground of the tunnel to be excavated, and the steel pipe 1 to be inserted into the pipe insertion hole 25 has a slit-shaped cutout hole extending in the circumferential direction on the peripheral wall. 2, an injection hole 3 for cement milk is provided in the peripheral wall, and an air vent hole 1 is provided at the tip of the pipe 1.
3 is formed into a flexible pipe provided with said pipe 1.
Inside the pipe 1, an air vent pipe 30 that opens near the tip of the pipe 1 is inserted, and a cement milk injection pipe 31 that opens near the base of the pipe 1 is inserted into the pipe 1. The pipe is inserted into the pipe insertion hole 25, the mouth of the pipe insertion hole 25 is closed, cement milk is injected through the injection pipe 31, and the air inside is discharged from the air release pipe 30, so that the pipe 1 is inside and outside. Construction method for flexible pipe bolts filled with cement milk. 3. A pipe insertion hole 25 is formed in the ground at the outer periphery of the tunnel to be excavated, and the pipe insertion hole 25 is
A steel pipe 1 to be inserted into the pipe 1 is provided with a slit-shaped cutout hole 2 extending in the circumferential direction on the peripheral wall, an injection hole 3 for cement milk in the peripheral wall, and an air vent hole 13 at the tip of the pipe 1. An air release pipe 30 is inserted into the pipe 1, which opens near the tip of the pipe 1, and cement milk is injected into the pipe 1, which opens near the base of the pipe 1. inserting the pipe 31, then inserting the pipe 1 into the pipe insertion hole 25, and closing the mouth of the pipe insertion hole 25;
A method for constructing a mini-pipe roof, in which cement milk is injected through the injection pipe 31, internal air is discharged from the air bleed pipe 30, and cement milk is filled inside and outside the pipe 1.