KR101990875B1 - High pressure jet grouting system and method using draining device of muddy water - Google Patents

Abstract

The present invention relates to a high pressure grouting injection system using a muddy water discharge apparatus, which separately collects and discharges muddy water generated during drilling to the outside to prevent muddy water from flowing on the ground and hindering the work or passage of pedestrians, and a high pressure grouting injection method thereof. According to the present invention, the high pressure grouting injection system using a muddy water discharge apparatus comprises: a high pressure injection rod for supplying compressed air, or supplying compressed air, ultrahigh pressure water, and mortar, and including a monitor for high pressure injection formed at a lower end; and the muddy water discharge apparatus installed at an inlet, into which the high pressure injection rod is inserted into the ground. The muddy water discharge apparatus comprises a guide pipe having a lower end inserted into the upper part of a drilling hole drilled in advance to a predetermined depth, having an upper end protruding above the ground, and penetrating the high pressure injection rod thereinto, and a water collection unit coupled to one side of the upper end of the guide pipe to discharge muddy water discharged through the guide pipe to the outside. The guide pipe comprises a fixed pipe inserted into the upper part of the previously drilled hole, and a rotary pipe rotatably coupled to the upper part of the fixed pipe and allowing the water collection unit to be attached to one side.

Description

Technical Field [0001] The present invention relates to a high pressure jet grouting system and a high pressure jet grouting system,

The present invention relates to a high-pressure spray grouting system and a high-pressure spraying system using a perforated water discharging device capable of collecting perforated water generated during perforation and discharging the perforated water to the outside to prevent the perforated water from overflowing to the upper portion of the ground, This is about the grouting method.

Conventionally, in order to fill voids in the cavity or sand gravel layer of the conventional ground, to improve the soft layer or to improve the underwater ground of the fly ash for the construction of underwater structures, a high pressure injection rod made of a double pipe or a triple pipe, A high pressure spray grouting ground improvement system is used which injects a coagulant such as a high pressure gas into the ground.

1, the monitor 21 coupled to the lower end of the high-pressure injection rod 2 is inserted into the ground 1 to be improved, and compressed air or compressed air and ultra-high-pressure water are spin- After cutting, cement paste or mortar is sprayed to form a cylindrical solid body (3) in the ground.

Specifically, by injecting compressed air and cement paste or mortar at a high pressure using a double pipe rod with a high-pressure injection rod (2), it is possible to form a cylindrical solidified body (3) by stirring and mixing the ground pile soil and the like with the coagulant.

Or injection of ultra-high pressure water as well as cement paste or mortar using a triple-tube rod with a high-pressure injection rod (2) to cut and agitate the ground so that very small particle components such as clay are discharged to the ground, The soil or the like and the coagulant are stirred and mixed to form the columnar solidification (3).

However, there may occur a case where the perforation water generated in the process of penetration of the high-pressure injection rod 2 flows over the upper part of the ground and hinders the work of the operator. In addition, in the case of the downtown area or road construction, there is a fear of civil complaints because it interferes with the traffic of pedestrians as well as the workers.

KR 10-0942714 B1

In order to solve the above-mentioned problems, the present invention can collect the perforated water generated at the time of perforating the ground and discharge the processed water to the outside, thereby preventing the perforated water from overflowing to the upper part of the ground, A high pressure injection grouting system and a high pressure injection grouting method using a perforated water discharging apparatus.

According to a preferred embodiment of the present invention, there is provided a high pressure injection rod for supplying compressed air or compressed air, ultrahigh pressure water and mortar, and having a monitor for injecting high pressure at a lower end thereof; And a piercing water discharging device installed so that a high-pressure spraying rod is inserted through the inlet where the high-pressure spraying rod of the ground is inserted; Wherein the perforated water discharging device includes a guide pipe through which the lower end is inserted into an upper portion of a perforation hole linearly perforated to a predetermined depth and an upper end protruded to an upper portion of the ground, The guide pipe includes a fixed pipe inserted in the upper portion of the perforated hole drilled through the guide pipe, and a guide pipe rotatably coupled to an upper portion of the fixed pipe, And a rotary pipe to which the water collecting unit is coupled.

According to another preferred embodiment of the present invention, the guide pipe has a portion protruding upward from the ground is expanded.

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According to another preferred embodiment of the present invention, there is provided a high-pressure injection grouting method using the perforated water discharging apparatus, comprising the steps of: (a) (b) inserting and fixing the lower portion of the guide pipe of the perforated water discharging device into the perforated hole drilled by the line; (c) discharging the perforated water to the outside through the perforated water discharge device while penetrating the high pressure injection rod through the guide pipe of the perforated water discharge device into the ground; (d) removing the perforated water discharging device; And (e) spinning the compressed air or ultra-high-pressure water horizontally in a horizontal direction on the monitor while rotating the high-pressure injection rod to high pressure to excavate the surrounding ground, and spraying the mortar to form a cylindrical solid body; The present invention provides a high pressure injection grouting method using a perforated water discharging apparatus.

According to the present invention, the perforated water discharging device is disposed so as to surround the outside of the high-pressure spraying rod, whereby the perforated water generated during the ground penetration can be discharged to the upper part through the guide pipe of the perforated water discharging device.

Accordingly, the perforated water can be collectively collected through the collecting part coupled to one side of the guide pipe, thereby preventing the perforated water from overflowing to the upper part of the ground and interfering with the operation or the passage of the pedestrian, can do.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view showing a conventional high pressure injection soil improvement method. Fig.
2 is a perspective view of a perforated water discharging device.
Fig. 3 is a sectional view of a piercing water discharging device installed in the ground; Fig.
4 is a cross-sectional view of a perforated water discharge device coupled to an injection tube.
5 is a perspective view of a perforated water discharging device provided with a supporting plate.
6 is a cross-sectional view of a perforated water discharge device having an expanded guide tube;
7 is a perspective view of a perforated water discharging device in which a guide pipe is composed of a fixed pipe and a rotary pipe.
8 is a view showing steps of a high-pressure injection grouting method using the perforated-water discharge device of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

Fig. 2 is a perspective view of the perforated water discharging device, and Fig. 3 is a sectional view of the perforated water discharging device installed in the ground. 4 is a sectional view of a perforated water discharging device coupled to an injection pipe, and FIG. 5 is a perspective view of a perforated water discharging device provided with a supporting plate.

The high pressure injection grouting system using the perforated water discharging apparatus according to the present invention comprises a high pressure injection rod 2 for supplying compressed air or compressed air, ultra high pressure water and mortar, and a monitor 21 for injecting high pressure at the lower end thereof; And a puncture water discharging device (4) installed so that a high-pressure spraying rod (2) is inserted through an inlet of the ground (1) where the high-pressure spraying rod (2) is inserted; And the upper end of which is protruded to the upper portion of the ground 1 so that the high-pressure spraying rod 2 can be guided through the perforation hole, And a collecting part 42 coupled to the tube 41 and one side of the upper end of the guide tube 41 for discharging the perforated water discharged through the guide tube 41 to the outside.

The high pressure injection rod 2 may be composed of a double pipe rod for supplying compressed air and cement paste or mortar to the ground or a triple pipe rod for supplying compressed air and ultrahigh pressure water and cement paste or mortar.

The monitor 21 is provided at the lower end of the high-pressure injection rod 2 and is inserted into the ground 1 to be improved.

The monitor 21 cuts the ground 1 by injecting high-pressure water with compressed air or compressed air and ultra-high-pressure water. Then, the mortar or cement paste is sprayed and mixed with the ground pile soil or the like in the ground 1 so as to form a cylindrical solid foundation 3 with a predetermined size in the ground.

2 to 5, the piercing water discharging device 4 is installed such that a high-pressure spraying rod 2 is inserted through the inlet of the ground 1 where the high-pressure spraying rod 2 is inserted, And a collecting part 42 coupled to one side of the pipe 41 and the guide pipe 41.

The guide pipe 41 has a lower end inserted into an upper portion of a perforation hole linearly drilled to a predetermined depth and an upper end projecting to an upper portion of the ground 1. The upper end and the lower end of the guide pipe 41 are opened, (2) is perforated.

The inner diameter of the guide tube (41) is formed to be larger than the outer diameter of the high-pressure injection rod (2).

The water collecting part 42 is coupled to one side of the upper end of the guide pipe 41 and discharges the perforated water discharged through the guide pipe 41 to the outside.

Accordingly, the perforated water generated during the perforation of the ground 1 can be discharged to the upper part through the guide pipe 41, and collected by the collecting part 42 and discharged.

Since the perforated water discharged through the water collecting part 42 can be collected and treated separately, it is possible to prevent the perforation water from flowing over the upper part of the ground 1. Therefore, it is possible to minimize the influence on the environment, and it is possible to prevent the occurrence of complaints because it does not interfere with work or pedestrian traffic.

Preferably, the water collecting part 42 is inclined downward at a predetermined angle to the outside so that the discharge of perforated water is smoothly performed.

The water collecting part 42 may have a semi-cylindrical shape such that the upper part thereof is opened, and the cylindrical pipe may be directly coupled to one side of the upper end of the guide pipe 41.

A concrete procedure for forming the solidified body 3 on the ground 1 by applying the perforated water discharging device 4 to the high-pressure spray grouting method to discharge the perforated water will be described later with reference to FIG.

As shown in FIG. 5, a support plate 43 may be coupled to the outer circumferential surface of the guide pipe 41.

The support plate 43 is engaged with the upper surface of the ground 1 when the high pressure injection rod 2 is inserted into the guide pipe 41 and penetrates the ground 1 while drilling the ground 1 so that the guide pipe 41 is lowered .

6 is a cross-sectional view of a perforated water discharging device provided with an expanded guide pipe.

As shown in FIG. 6, the guide pipe 41 may be configured such that a portion protruding to the upper portion of the ground 1 is expanded.

When the upper part of the guide pipe 41 is expanded and the diameter of the guide pipe 41 located in the ground 1 is larger than the lower part of the guide pipe 41, It does not overflow.

The upper portion of the guide tube 41 may be formed in a cylindrical shape having a diameter enlarged as shown in Fig. 6 (a), or may be formed in an inverted conical shape having a vertical concave shape as shown in Fig. 6 (b).

Particularly, a step portion can be formed between the portion where the guide pipe 41 is expanded and the portion inserted in the ground 1.

It is possible to restrict the insertion depth of the guide pipe 41 by using the step portion so that when the high pressure injection rod 2 is inserted into the guide pipe 41, the perforated water discharging device 4 is sucked into the perforation hole So that the perforated water discharging device 4 can be stably fixed to the ground 1.

7 is a perspective view of a perforated water discharging device in which the guide pipe is composed of a fixed pipe and a rotary pipe.

7, the guide pipe 41 includes a fixing pipe 411 inserted in the upper portion of the perforated hole drilled through the pipe, and a fixing pipe 411 rotatably coupled to the upper portion of the fixing pipe 411, (Not shown).

If the rotary pipe 412 is configured to be rotatable on the upper portion of the fixing pipe 411, the direction of the water collecting part 42 can be freely adjusted according to the field conditions.

The inner diameter of the rotary pipe 412 may be larger than that of the fixing pipe 411 to make the upper volume larger.

The fixed pipe 411 and the rotary pipe 412 are formed with grooves, protrusions or protrusions and grooves along the circumferential direction on the outer side and the inner side respectively corresponding to each other, and a rotary pipe 412 is formed outside the fixed pipe 411 It can be configured to be rotatable.

FIG. 8 is a view showing a step-by-step process of the high-pressure spray grouting method using the perforated-water discharging apparatus of the present invention.

The high-pressure injection grouting method using the piercing water discharging apparatus of the present invention relates to a method for forming a solidification (3) by high-pressure spray grouting in the ground 1 by using the above-described piercing water discharging device (4).

The high pressure spray grouting method using the perforated water discharging apparatus of the present invention comprises the steps of: (a) confirming the installation position and drilling the ground 1 at a predetermined depth; (b) inserting and fixing the lower portion of the guide pipe (41) of the perforated water discharging device (4) into the perforated hole drilled through the hole; (c) discharging the perforated water to the outside through the perforated water discharging device 4 while penetrating the high pressure injection rod 2 through the guide pipe 41 of the perforated water discharging device 4 into the ground 1 ; (d) removing the perforated drainage device (4); And (e) rotating the injected high-pressure injection rod (2) horizontally in the horizontal direction at the high pressure in the monitor (21) to excavate the surrounding ground, spraying the mortar to form the cylindrical solidified body (3) Forming in the ground; And a control unit.

In the step (a), the construction position to form the solidified body 3 on the ground 1 is confirmed, and the ground 1 is drilled to a predetermined depth to form a perforation hole (FIG. 8 (a)).

At this time, the perforation hole is formed to a depth such that a part, preferably about half, of the lower portion of the guide pipe 41 of the perforated water discharging device 4 can be inserted.

The perforation hole is formed by using a perforator or a hand drill.

Next, the lower portion of the guide pipe 41 of the perforated water discharging device 4 is inserted into the perforated hole (b) (FIG. 8 (b)).

(C) The high-pressure injection rod 2 is inserted into the ground 1 through the guide pipe 41 of the perforated water discharge device 4 (FIG. 8 (c)).

The lower end of the monitor 21 is provided with a leading end bit or an air hammer bit (not shown) to excite the lower portion of the perforation hole by rotating or blowing while supplying water so that the high pressure injection rod 2 is introduced into the ground 1.

At this time, the perforated water discharge device 4 collects the perforated water generated by mixing the water to be grounded and the excavated soil to the upper part through the guide pipe 41, To the outside.

After the step (c), (d) the perforated water discharging device 4 is removed (FIG. 8 (d)).

Finally, (e) the monitor 21 drives the high-pressure injection rod 2 to rotate horizontally compressed air or ultra-high-pressure water at a high pressure to excavate the surrounding ground, and spray the mortar to form the cylindrical solidification 3 ) Is formed in the ground (Fig. 8 (e)).

The solidified body (3) is a ground modifying body formed by mixing injected mortar with a ground pile cut with high-pressure water, and its position, height, diameter and the like are set according to the ground condition.

1: ground 2: high pressure injection rod
21: Monitor 3: Solidification
4: Perforated water discharge device 41: Guide tube
411: Fixing tube 412: Rotary tube
42: collecting part 43: supporting plate

Claims (4)

A high pressure injection rod 2 for supplying compressed air or compressed air and ultrahigh pressure water and mortar, and a monitor 21 for injecting high pressure at a lower end thereof; And
A puncture water discharging device 4 installed so that a high-pressure spraying rod 2 is inserted through the inlet of the ground 1 at which the high-pressure spraying rod 2 is inserted; Respectively,
The perforated water discharging device 4 includes a guide pipe 41 through which the lower end is inserted into the upper part of the perforation hole drilled at a certain depth and the upper end thereof is protruded to the upper part of the ground 1, And a collecting part 42 coupled to one side of the upper end of the guide pipe 41 and discharging perforated water discharged through the guide pipe 41 to the outside, And a rotary pipe (412) rotatably coupled to the upper portion of the fixing pipe (411) and coupled to the water collecting part (42) at one side thereof. High pressure jet grouting system with device.
The method of claim 1,
Wherein a portion of the guide pipe (41) projecting upward from the ground (1) is expanded.
delete A high-pressure injection grouting method using a perforated water discharging apparatus according to any one of claims 1 to 3,
(a) confirming the installation position and drilling a ground line (1) at a predetermined depth;
(b) inserting and fixing the lower portion of the guide pipe (41) of the perforated water discharging device (4) into the perforated hole drilled through the hole;
(c) discharging the perforated water to the outside through the perforated water discharging device 4 while penetrating the high pressure injection rod 2 through the guide pipe 41 of the perforated water discharging device 4 into the ground 1 ;
(d) removing the perforated drainage device (4); And
(e) While the high-pressure injection rod 2 is pulled out, the monitor 21 rotatively injects compressed air or ultra-high-pressure water at a high pressure to excite the surrounding ground, and injects the mortar, Forming in the ground; And a high-pressure spray grouting method using the drilling water discharging device.

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