KR100944857B1 - Apparatus for improvement soft ground - Google Patents

Abstract

PURPOSE: A device for improving the soft ground is provided to discharge earth, sand and all sorts of foreign materials, separated from the soft ground, to outside. CONSTITUTION: A device for improving the soft ground is composed as follows. A support pipe(21) is inserted into a boring hole to support the inner surface of the boring hole formed by boring the soft ground(1). A rod(22) sprays a ground amendment(3) through an injecting nozzle(22a) arranged inside the support pipe. An air pipe(23) is arranged inside the support pipe, and supplies high-pressure air. A suction port(24a) is formed in the bottom end of a slime exhaust pipe(24), and inhales slime. The bottom end of the air pipe is connected to the side surface of the slime exhaust pipe, and the slime exhaust pipe discharges the slime to outside. A check valve(23a) is formed between the bottom end of the air pipe and the slime exhaust pipe, and prevents backflow of the high-pressure air.

Description

Soft Ground Improvement Equipment {APPARATUS FOR IMPROVEMENT SOFT GROUND}

The present invention relates to an apparatus for improving soft ground, and more particularly, to a soft ground improving apparatus capable of discharging slime to the outside while injecting the improved material into the soft ground.

In order to build the structure on the soft ground, a part of the soft ground is modified to establish the foundation of the structure.

For example, after drilling in the ground of the soft ground vertically to form a perforation, inserting a rod formed with a nozzle for spraying the ground modifier at the bottom into the perforation, and then spray the ground modifier through the nozzle.

At this time, when the ground improving agent is sprayed at a high pressure while rotating the rod, the injected ground improving agent is mixed with the soil separated from the ground, and the soil is mixed with the soil improving agent so that a part of the soft ground is improved. This will improve the soft ground.

However, according to the soft ground improvement method according to the prior art as described above, during the process of mixing the ground improver sprayed through the rod with the ground, the strength is weakened by the moisture contained in the soil or sprayed with the ground improver. There is this.

In addition, since the soil improving agent and the soil were mixed, the mixing ratio of the soil improving agent and the soil was not constant, so that the soft ground could not be improved with a constant strength.

The present invention has been invented to achieve the above object, an object of the present invention is to provide a soft ground improvement device to discharge the soil and various foreign matter separated from the soft ground to improve the soft ground.

Soft ground improvement apparatus according to the present invention for achieving the above object, the support pipe is inserted into the drilling hole to support the inner wall surface of the drilling hole formed by drilling the soft ground, and the support inside the support pipe A spray nozzle is disposed in the axial direction of the pipe and positioned adjacent to the lower end to spray the ground modifier. The rod rotates to spray the ground modifier through the spray nozzle, and is positioned inside the support pipe and the high pressure air. An air pipe for supplying the air pipe is provided in parallel with the air pipe, and a suction port is formed at a lower end of which the slime separated from the soft ground is sucked, and the lower end of the air pipe is connected to the side to discharge the slime to the outside. It includes a discharge pipe.

It is preferable that a check valve is provided between the lower end of the air pipe and the slime discharge pipe to prevent backflow of the high pressure air supplied from the air pipe.

On the other hand, the soft ground improvement method, the drilling step of drilling a hole to form the lower of the soft ground, and a drilling support step for supporting the inner wall of the drilling hole by inserting a support pipe into the inside of the drilling hole, A pipe insertion step of inserting a rod into which the ground improving agent is injected into the support pipe, an air pipe into which high pressure air is injected, and a slim discharge pipe discharging the slime to the outside in parallel with the air pipe; and rotating the rod, Ground improvement agent injection step of injecting the ground improver from the bottom of the rod into the soft ground, and the air injection step of supplying high pressure air through the air pipe at the same time as the ground improver injection step, and the slime by suctioning the slime into the inlet of the slime discharge pipe It includes a slime discharge step to discharge the outside.

According to the soft ground improvement apparatus according to the present invention having the configuration as described above, after allowing various foreign matters, including the soil and sediment separated from the soft ground, water mixed in the ground to be discharged to the outside, by only curing the ground improver, soft ground Can improve the constant strength.

In addition, by discharging the soil, moisture and foreign matter to the outside, the time for curing the ground improving agent can be reduced, thereby reducing the work air.

Hereinafter, the soft ground improvement apparatus according to the present invention will be described with reference to the accompanying drawings.

2 and 3 are a perspective view and a cutaway perspective view of the soft ground improvement apparatus according to the present invention, Figure 5 is a cross-sectional view showing an operating state.

Soft ground improvement apparatus according to the present invention, the support pipe 21 is inserted into the drilling hole (1a) formed in the soft ground (1), and the axial direction of the support pipe 21 in the support pipe 21 And a rod 22 for spraying the ground improving agent 3 through the spray nozzle 22a while rotating, the spray nozzle 22a having the ground improving agent 3 injected therein is formed at the bottom thereof. Located inside the pipe 21, the air pipe 23 for supplying high-pressure air, and provided in parallel with the air pipe 23, is connected to the lower side of the air pipe 23, the lower end Including a slime discharge pipe (24) is formed so that the inlet (24a) is separated from the soft ground (1) is sucked in the soil and foreign matter is discharged to the outside.

The support pipe 21 is inserted into the perforation 1a formed in the soft ground 1 to support the inner wall of the perforation 1a. Through the drilling mechanism such as the auger drill (2) on the soft ground (1) perpendicular to the ground, the perforated (1a) is formed in the soft ground (1). Since the perforation 1a is formed on the soft ground 1, the perforation 1a collapses during the ground improvement work, or the soil is separated from the inner wall of the perforation 1a to block the perforation 1a. Or it can be mixed with the ground improver (3), by inserting the support pipe 21 into the hole (1a), it can be prevented. The support pipe 21 is formed of a metal material such as steel, so that the outer diameter of the support pipe 21 corresponds to the inner diameter of the punched hole 1a, and the inside of the support pipe 21 is hollow in the longitudinal direction. It is possible to prevent the perforation (1a) is collapsed or the soil is separated by inserting into). On the other hand, the rod 22, the air pipe 23 and the slime discharge pipe 24 which will be described later into the support pipe 21 may be inserted.

The rod 22 penetrates through the inside of the support pipe 21, and has a lower end lower than the lower end of the support pipe 21 and is inserted into the soft ground 1. The rod 22 is formed in a hollow to supply the ground improver 3 in the longitudinal direction, the lower end is formed in a conical shape to facilitate insertion into the soft ground (1), the ground improver (3) adjacent to the lower end An injection nozzle 22a to be injected is formed. The rod 22 is rotatably provided in the support pipe 21 to rotate the ground improving agent 3 at a high pressure through the injection nozzle 22a to disintegrate a part of the soft ground 1 so that the ground improving agent is broken. The space S in which (3) can be accommodated is formed.

At this time, it is preferable that the injection nozzles 22a are provided in plural and are formed at different heights, and the injection nozzles 22a at equal intervals from each other are disposed at an equal angle to each other. By forming a plurality of injection nozzles 22a, a large amount of the ground improving agent 3 can be introduced quickly into the operating portion. In addition, by being formed to have different heights, it is possible to spray a larger amount of the ground improving agent (3) without lifting the rod 22. In addition, by arranging the plurality of injection nozzles 22a at an isometric angle with each other, it is possible to minimize the occurrence of vibration in the rod 22 when the rod 22 rotates. For example, if the injection nozzles 22a are two, the injection nozzles 22a are formed at different heights and are spaced 180 degrees apart. If the injection nozzles 22a are three, the injection nozzles 22a are located at different heights. It is arranged at intervals of degrees.

The air pipe 23 supplies high pressure air to the space for improving the soft ground 1. The air pipe 23 may supply high pressure air from the outside by being connected to an air pump provided on the ground. The slime discharge pipe 24 is provided in parallel with the air pipe 23 to discharge the slime mixed with soil, moisture, and various foreign substances from the space for improving the soft ground 1 to the outside.

The slime discharge pipe 24 is connected to the lower end of the air pipe 23 when the high pressure air supplied from the air pipe 23 is discharged to the top after the hydraulic pressure to the slime discharge pipe 24, the slime discharge pipe 24 Through the suction port 24a formed at the bottom of the slime to be discharged. By discharging the slime existing in the space adjacent to the lower end of the support pipe 21 to the outside, only the pure soil improving agent 3 is filled in the space for improving the soft ground.

At this time, in order to prevent the high pressure air supplied from the air pipe 23 to the slime discharge pipe 24 to flow back to the air pipe 23, as shown in Figure 4, it is provided with a check valve (23a) desirable.

In addition, the slime discharge pipe 24 is arranged adjacent to and side by side with the air pipe 23 through a means such as a connecting ring (not shown).

As described above, the ground improving agent 3 is sprayed at a high pressure through the rotating rod 22 to disintegrate the soft ground 1 in the space S to be ground improved, and spray the high pressure air with the air pipe 23. While filling the space (S) with the ground improver (3) while discharging various foreign matters including soil, moisture, etc. to the slime discharge pipe (24) to the outside, the injected ground hardener is cured as shown in 3 ' As described above, the soft ground 1 is improved.

In the soft ground improvement method using the soft ground improving apparatus, as shown in FIG. 7, the drilling step (S110) for drilling the soft ground and the cloth for inserting the support pipe 21 into the inside of the drilling hole (1a) Public support step (S120), the tube insertion step (S130) for inserting the rod 22, the air pipe 23 and the slime discharge pipe 24 into the support pipe 21 and the rod 22 is rotated The ground improver injection step (S140) for injecting the ground improver (3), the air spraying step (S150) for supplying the high pressure air therein, and the slime discharge pipe (24) to inhale soil and foreign matters to discharge to the outside. It includes a suction step (S160).

The drilling step (S110) allows the drilling ground (1a) to be formed on the soft ground (1) in a direction perpendicular to the ground. Perforating the soft ground (1) using a drilling tool such as an auger drill to form a perforation (1a) that is a passage for the ground improvement work.

The drilling support step (S120) is to insert the support pipe 21 into the drilling hole (1a) drilled on the soft ground to support the drilling hole (1a) so that the drilling hole (1a) is collapsed, or the soil is not separated . By inserting the support pipe 21 made of a metal material such as a steel pipe into the perforated hole 1a, the perforated hole 1a is collapsed or the soil is not separated from the inner wall of the perforated hole 1a. That is, since the support pipe 21 is inserted into the inner wall of the perforated hole 1a, the perforated hole 1a is collapsed or the earth and sand do not flow out from the inner wall to the perforated hole 1a.

Pipe inserting step (S130) is a process of inserting the rod 22, the air pipe 23 and the slime discharge pipe 24 into the support pipe 21. The air pipe 23 and the rod 22 for injecting the ground improving agent 3 into the support pipe 21 and the air pipe 23 for injecting high pressure air into the ground improvement target space S. Insert the slime discharge tube 24 side by side. At this time, preferably, the rod 22 is positioned in the center of the support pipe 21, and the air pipe 23 and the slime discharge pipe 24 are positioned to be adjacent to each other. Therefore, the rod 22 is positioned at the center of the support pipe 21 by the tube insertion step S130, and the air pipe 23 and the slime discharge tube 24 are positioned in the remaining space.

In the ground improver spraying step (S140), the ground improver is sprayed into the ground improvement target space S of the soft ground 1 through the rod 22. When the ground improving agent is supplied to the rod 22 having the spray nozzle 22a exposed to the lower end of the support pipe 21 at high pressure from the outside, the ground improver is sprayed through the spray nozzle 22a of the rod 22. do. The rod 22 is in a rotatable state, and since the soil improving agent is sprayed at a high pressure through the spray nozzle 22a, the earth and sand of the space S, which is the soil improvement target of the soft ground 1, is mixed with the soil improving agent and the moisture. The state becomes a slime state.

In the air spraying step (S150), when the ground improving agent (3) is injected as described above and at the same time supplying the high pressure air from the outside to the air pipe 23, the air pipe 23 is provided with a check valve ( As shown by the arrow ① of FIG. 5 through 23a), the high-pressure air is discharged to the top of the slime discharge pipe 24.

In the suction step (S160) the ground (1) is disintegrated and discharged to the outside of the mixture of soil and moisture ground improver that has become a slime state. When the ground improving agent 3 is supplied into the space S and at the same time high pressure air is supplied and discharged to the upper portion of the slime discharge tube 24, the slime discharges to the slime discharge tube 24, as indicated by the arrow ② of FIG. 5. Inhaled and discharged to the outside.

As described above, by discharging the slime composed of earth and sand and foreign matter to the outside, while spraying the ground improver (3) to the ground improvement target space (S), the target space (S) of the soft ground (1) to the ground improver ( By substituting 3) and hardening it, it is possible to build a structure on the soft ground because it can play the role of hardened ground improver (3 ') and rock.

1 is a side view showing a process for drilling a soft ground using a drilling tool.

Figure 2 is a perspective view of the soft ground improvement device according to the present invention.

Figure 3 is a partial cutaway perspective view of the soft ground improvement device according to the present invention.

Figure 4 is an enlarged perspective view of the main part of FIG.

Figure 5 is a cross-sectional view showing the operation of the soft ground improvement apparatus according to the present invention.

6 is a side view showing a state in which the soft ground is improved by using the soft ground improving apparatus according to the present invention.

Figure 7 is a flow chart illustrating a process for improving the soft ground using the soft ground improvement apparatus according to the present invention.

Description of the Related Art [0002]

1: Soft ground 1a:: Perforated

2: Auger drill 3, 3 ': ground hardener

21: support pipe 22: rod

22a: injection nozzle 23: air pipe

23a: check valve 24: slime discharge pipe

24a: inlet

Claims (3)

delete The support pipe 21 is inserted into the drilling hole (1a) to support the inner wall surface of the drilling hole (1a) formed by drilling the soft ground (1), and the support pipe (in the interior of the support pipe 21) 21 is disposed in the axial direction, and adjacent to the lower end is formed with a spray nozzle 22a for spraying the ground modifier 3, and rotates to spray the ground modifier 3 through the spray nozzle 22a A rod 22, an air pipe 23 positioned inside the support pipe 21 to supply high pressure air, and provided in parallel with the air pipe 23 and separated from the soft ground 1 at a lower end thereof. In the soft ground improvement device comprising a slime discharge pipe 24 is formed in the suction port 24a is sucked slime, the lower end of the air pipe 23 is connected to the side to discharge the slime to the outside, A check valve 23a is provided between the lower end of the air pipe 23 and the slime discharge pipe 24 to prevent a back flow of the high pressure air supplied from the air pipe 23. The injection nozzle (22a) provided on the circumference of the rod 22 is formed at different heights, characterized in that the soft ground improvement device characterized in that arranged in an isometric manner along the circumferential direction of the rod (22). delete

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