KR102348099B1 - High clearance and rapid water tight reinforcement grouting of soft ground - Google Patents

Abstract

The present invention relates to a grouting method for reinforcing the weak ground with great gaps and rapid water flow, comprising: (a) a step of connecting an insertion pipe having a plurality of injection pipes and a plurality of flow paths to an equipment for punching and injecting and inserting the insertion pipe into the ground; (b) a step of discharging the air and mixed water along one of the plurality of injection pipes, and crushing and agitating the ground; and (c) a step of discharging an injection material along the rest of the plurality of injection pipes and agitating the mixed water, ground, and the injection material discharged in step (b) and forming bulbs. The step (b) is conducted by discharging the air and the mixed water through a first nozzle unit placed in the insertion pipe. The step (c) is conducted by discharging the injection material through a second nozzle unit placed to keep a distance from the first nozzle unit and placed on the insertion pipe. The air and the mixed water discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are agitated in the ground after being discharged from the insertion pipe and form the bulbs, so a malfunction where the first nozzle unit or the second nozzle unit is blocked can be prevented.

Description

{High clearance and rapid water tight reinforcement grouting of soft ground}

The present invention relates to a grouting method for reinforcing soft ground with a large gap and fast running water. It is hardened to form bulbs, and after the grout material is discharged, the grout material and quick-setting material are mixed, so the steel pipe that discharges the grout material into the ground or the discharge part is clogged by the quick-setting material. It relates to a grouting method for ground reinforcement.

The soft ground that does not have sufficient bearing capacity as the foundation of the building consists of soft and highly compressible clay, silt, and peat.

If a building is built directly on such a soft ground, the ground is destroyed or a large consolidation settlement occurs. Therefore, in order to construct an important structure in the soft ground, the foundation is supported on the solid ground of the lower layer with piles or caisson. Various reinforcement methods are used.

Pack anchor is a device widely used in the prior art for reinforcing soft ground, and unlike general anchors, the pack anchor is characterized in that the fixing part is wrapped in a protective pack. After that, it is constructed in such a way that secondary grouting is performed by injecting cement milk into the protective pack and expanding it.

Here, the secondary grouting is to improve the anchoring power by increasing the anchoring area of the anchoring part in consideration of the characteristics of the soft and soft ground.

However, drilling of soft ground is generally performed by cutting with water. In this case, the ground to be fixed after drilling exceeds the liquid limit and becomes softer, and in such a state, up to the secondary grouting performed by the pressurization method. When this is done, excessive pore water pressure is formed around the protective pack, so that the pack anchor cannot obtain a sufficient level of anchoring force.

As a result, the conventional pack anchor often has a pull-out resistance lower than the required level after construction.

In order to solve the above problems, a method for reinforcing soft ground using a pack anchor that flows pore water pressure dissipation has been developed. Inserting a pack anchor inducing dissipation of pore water pressure of the disturbed settlement ground to Carrying out secondary grouting to expand by injecting cement milk, and draining excess pore water around the fixing unit in the direction of the free tenon through one or more drainage materials after the secondary grouting; It includes the step of additionally removing moisture around the protective pack by causing a hardening reaction with the powder compact material and at the same time strengthening the frictional force of the protective pack.

The background technology of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1669872 (published on October 21, 2016, title of invention: Soft ground reinforcement method using a pack anchor to induce pore water pressure dissipation of disturbed settled ground) has been

Since the soft ground reinforcement method according to the prior art is made using a grouting device having a pack anchor, the structure of the grouting device is complicated, the grouting method is not easy, and the loss of the grout material between the gaps in the ground In the case of using the quick-setting material to prevent it, there is a problem that the rapid-setting material is hardened inside the grouting device, which may cause deformation or damage of the grouting device.

Therefore, there is a need to improve it.

The present invention adds a quick-setting material to prevent the loss of grout material due to gaps in the ground, and after the grout material is discharged to the ground, it is cured within a short time to form bulbs. An object of the present invention is to provide a grouting method for reinforcing soft ground with a large gap and fast running water that can prevent malfunctions in which the steel pipe or the discharge part for discharging ash into the ground is clogged by quick-setting materials.

The present invention, (a) is provided with a plurality of injection tubes and inserting the insertion tube provided with a plurality of flow passages into the ground by connecting the drilling and injection possible equipment; (b) discharging air and mixed water along any one of the plurality of injection pipes to crush and stir the ground: and (c) the injection material along the other of the plurality of injection pipes. and forming bulbs while stirring the mixed water, ground, and injection material discharged in step (b) by discharging, wherein step (b) is mixed with air through the first nozzle part provided in the insertion tube It is made by discharging water, and step (c) is made by discharging the injection material through a second nozzle which is provided in the insertion tube and is provided to maintain a gap with the first nozzle unit, and the first nozzle unit Since the air and mixed water discharged from the and the injection material discharged from the second nozzle unit are agitated inside the ground after being discharged from the insertion tube to form bulbs, the malfunction of the first nozzle unit or the second nozzle unit is prevented from clogging. features that can be done.

In addition, the mixed water of the present invention is made by mixing 3 to 12 parts by weight of a plastic thickening material with respect to 100 parts by weight of water, and the injection material is 50 to 59 parts by weight of water with respect to 100 parts by weight of eco-friendly cement, and a setting adjuster It is characterized in that 0.3 to 1 parts by weight are mixed.

In addition, the plastic thickener of the present invention is characterized in that it consists of a thickener comprising 5 to 15 parts by weight of a water absorbent polymer, 1 to 10 parts by weight of methyl cellulose, and 880 to 995 parts by weight of water.

In addition, the present invention, (a) is provided with a plurality of injection tubes and inserting the insertion tube provided with a plurality of flow paths to the equipment capable of perforation and injection into the ground; (b) crushing and stirring the ground by discharging air, water, and quick-setting material along any one of the injection tubes among the plurality of injection tubes; and (c) the remaining injection tubes among the plurality of injection tubes. and discharging the injection material according to the step (b) to form a bulb while stirring the air, water, quick-setting material, ground, and injection material discharged in step (b), wherein the step (b) includes the first provided in the insertion tube It is made by discharging the air and water quick-setting material through the nozzle unit, and step (c) is made by discharging the injection material through the second nozzle which is provided in the insertion tube and is provided to maintain a gap with the first nozzle unit. Since the air, water and quick-setting material discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are discharged from the insertion tube and then stirred in the ground to form bulbs, the first nozzle unit or It is characterized in that it is possible to prevent a malfunction in which the second nozzle unit is clogged.

In addition, the rapid setting material of the present invention, calcium aluminate 450 to 550 parts by weight, 450 to 550 parts by weight of anhydrite, 0.5 to 3.0 parts by weight of nanoparticles, and 1 to 10 parts by weight of a setting regulator characterized in that it comprises do it with

In addition, the quick-setting material of the present invention is a mixture of bauxite, anhydrite, quicklime, and fluorite in a ratio of 18:15:3:1, melted at 950 ~ 1,000℃, and then pour the melt into a water bath and water at 50 ~ 80℃ The mixture is rapidly cooled to , and the cooled mixture ^{is pulverized to a fineness of 500 to 550 m 2} /kg to form a mixture, and the mixture, OPC, and blast furnace slag ore are mixed in 1:5:4, and PCE-based liquid water reducing agent with a solid content of 40% or more is 0.02 After adding ~ 0.03 parts by weight to the mixture, the mixture is pulverized to a fineness ^{of 700 ~ 800 m 2 /kg.}

In addition, in step (b) or step (c) of the present invention, a bit member is provided, is connected to heavy equipment and inserted into the ground, and the insertion tube having a first nozzle part and a second nozzle part on one side of the circumferential surface ; a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part; and a second injection pipe provided inside the first injection pipe, extending along the first injection pipe, and having a second discharge pipe connected to the second nozzle part. do.

In addition, in step (b) or step (c) of the present invention, a bit member is provided, is connected to heavy equipment and inserted into the ground, and the insertion tube having a first nozzle part and a second nozzle part on one side of the circumferential surface ; a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part; a second injection tube provided inside the first injection tube, the second injection tube extending along the first injection tube and having a second discharge tube connected to the first nozzle part; It is provided in the second injection pipe, it is characterized in that it is made by a grouting device including a third injection pipe extending along the second injection pipe and having a third discharge pipe connected to the second nozzle part. .

The grouting method for reinforcing soft ground with a large gap and fast running water according to the present invention inserts an insertion tube having a first nozzle part and a second nozzle part into the ground, and then through the first nozzle part, high-pressure mixed water or mixed water and The ground is crushed while spraying air, and bulbs are formed while discharging the grout material or mixed water with the grout material through the second nozzle, so that the grout material can be effectively constructed inside the ground with a large gap, and the running water quickly flows inside the ground There is an advantage in that the grout material to be constructed can be hardened in a short time, so that the grout material can be prevented from being lost due to running water.

1 is a block diagram showing an insertion tube and an injection tube used in a grouting method for reinforcing soft ground with a large gap and fast flowing water according to an embodiment of the present invention.
2 is a perspective view showing the first nozzle part of the insertion tube used in the grouting method for reinforcing soft ground with a large gap and fast flowing water according to an embodiment of the present invention.
3 is a state diagram showing the first nozzle part of the insertion tube used in the grouting method for reinforcing soft ground with a large gap and fast running water according to an embodiment of the present invention.
4 is a block diagram showing an insertion tube and an injection tube used in a grouting method for reinforcing soft ground with a large gap and fast flowing water according to another embodiment of the present invention.
5 is a perspective view showing a second nozzle part used in a grouting method for reinforcing soft ground with a large gap and fast flowing water according to another embodiment of the present invention.
6 is a state diagram showing a second nozzle part used in a grouting method for reinforcing soft ground with a large gap and fast running water according to another embodiment of the present invention.

Hereinafter, an embodiment of a grouting method for reinforcing soft ground having a large gap and a fast flow rate according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators.

Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a block diagram showing an insertion tube and an injection tube used in a grouting method for reinforcing soft ground with a large gap and fast running water according to an embodiment of the present invention, and FIG. 2 is a gap according to an embodiment of the present invention. It is a perspective view showing the first nozzle part of the insertion tube used for this large and fast flowing soft ground reinforcement grouting method, and FIG. 3 is a grouting method for soft ground reinforcement with a large gap and fast flowing water according to an embodiment of the present invention. It is a use state diagram showing the first nozzle part of the insertion tube to be used.

1 to 3, the grouting method for reinforcing soft ground with a large gap and fast flowing water according to an embodiment of the present invention includes a plurality of injection tubes and an insertion tube 10 having a plurality of flow passages. The step of connecting to the equipment capable of perforation and injection and inserting it into the ground, discharging air and mixed water along any one of the plurality of injection pipes to crush and stir the ground, and the rest of the plurality of injection pipes Discharging the injection material along the injection pipe of the mixing water discharged in the step of discharging the mixed water, agitating the ground and the injection material to form a bulb.

The step of discharging the mixed water of this embodiment is made by discharging air and mixed water through the first nozzle unit 30 provided in the insertion tube 10, and the step of discharging the injection material is the insertion tube 10 It is provided in the first nozzle unit 30 and is made by discharging the injection material through the second nozzle provided to maintain a gap.

Therefore, the air and mixed water discharged from the first nozzle unit 30 and the injection material discharged from the second nozzle unit 50 are stirred in the ground after being discharged from the insertion tube 10 to form bulbs, so the first nozzle It is possible to prevent a malfunction in which the unit 30 or the second nozzle unit 50 is clogged.

Here, the mixed water of this embodiment is made by mixing 3 to 12 parts by weight of a plastic thickener with respect to 100 parts by weight of water, and the injection material is 50 to 59 parts by weight of water with respect to 100 parts by weight of eco-friendly cement, and 0.3 to setting adjusting material 1 part by weight is mixed.

In addition, the plastic thickener of this embodiment consists of a thickener containing 5 to 15 parts by weight of the absorbent polymer, 1 to 10 parts by weight of methyl cellulose, and 880 to 995 parts by weight of water.

In the step of discharging the mixed water or discharging the injection material of this embodiment, the bit member 12 is provided, and it is connected to the drilling and insertable equipment and inserted into the ground, and the first nozzle part 30 on one side of the circumferential surface. ) and an insertion tube 10 having a second nozzle unit 50 , and a first provided inside the insertion tube 10 , extending along the insertion tube 10 and connected to the first nozzle unit 30 ) A first injection pipe 32 having a discharge pipe 34, provided inside the first injection pipe 32, extending along the first injection pipe 32 and connected to the second nozzle unit 50 It is made by a grouting device comprising a second injection pipe (36) having a second discharge pipe (38).

At the lower end of the insertion tube 10 of this embodiment, a bit member 12 that performs drilling while rubbing against the ground is installed, and inside the insertion tube 10, the first injection tube 32 and the second diameter are different from each other. Since the injection pipe 36 is installed, a first flow path is formed between the inner wall of the first injection pipe 32 and the outer wall of the second injection pipe 36 , and a second flow path is formed inside the second injection pipe 36 .

A first inlet extending from the first injection tube 32 to the outside of the insertion tube 10 is formed at the upper end of the first flow path, and a second injection tube extending upward through the upper end of the first injection tube 32 A second inlet extending to the outside of the insertion tube 10 is formed at the upper end of the 36 .

In this embodiment, mixed water composed of water and a plastic thickener is injected through the first inlet, and the mixed water supplied to the inside of the perforation hole through the first injection pipe 32 is through the first nozzle unit 30 It is sprayed into the ground, and the mixed water sprayed into the ground through the first nozzle unit 30 is sprayed at ^{a speed of 200 to 400 kg/m 2} , so that the ground is crushed and stirred.

In addition, in this embodiment, 50 to 59 parts by weight of water and 0.3 to 1 parts by weight of a setting adjuster are mixed with respect to 100 parts by weight of eco-friendly cement through the second inlet while the injection material is discharged through the first nozzle unit 30 It hardens while being stirred with the discharged mixed water to form an improved body in the ground and reinforce the strength of the soft ground.

The first nozzle unit 30 of this embodiment includes a discharge hole protruding laterally from the circumferential surface of the insertion tube 10 , and a first discharge pipe extending from the circumferential surface of the first injection pipe 32 toward the discharge hole portion. (34) and a first nozzle pipe (37) that is installed in the discharge hole portion and provides a whirlpool-shaped flow to the mixed water discharged through the first discharge pipe (34), A screw-shaped blade 37a is formed on the inner wall.

Therefore, as the mixed water supplied along the first injection pipe 32 passes through the first discharge pipe 34 and the first nozzle pipe 37, it flows in a whirlpool shape by a plurality of blades 37a and is discharged into the ground. The soft ground can be effectively crushed and agitated.

4 is a block diagram showing an insertion tube and an injection tube used in a grouting method for reinforcing soft ground with a large gap and fast running water according to another embodiment of the present invention, and FIG. 5 is a gap according to another embodiment of the present invention. It is a perspective view showing the second nozzle part used in this large and fast flowing water grouting method for reinforcing soft ground, and FIG. 6 is the second nozzle used in the soft ground reinforcing grouting method with a large gap and fast flowing water according to another embodiment of the present invention. It is a state diagram in which the two-nozzle unit is shown.

4 to 6 , the grouting method for reinforcing soft ground with a large gap and fast flowing water according to another embodiment of the present invention includes a plurality of injection tubes and an insertion tube 10 having a plurality of flow paths. The step of connecting to the equipment capable of perforation and injection and inserting it into the ground, discharging air, water, and quick-setting material along any one of the plurality of injection pipes to crush and stir the ground, and a plurality of injection pipes Discharging the injection material along the rest of the injection pipe to form a bulb while stirring the air, water, rapid payment material, ground and injection material discharged in the step of discharging air, water, and rapid payment material.

The step of discharging the air, water, and quick-paying material is made by discharging air and water-quick-paying material through the first nozzle unit 30 provided in the insertion tube 10, and the step of discharging the injection material is the insertion tube ( It is provided in 10) and is made by discharging the injection material through the second nozzle provided to maintain a distance from the first nozzle unit 30, and the air, water and rapid payment material discharged from the first nozzle unit 30, After the injection material discharged from the second nozzle unit 50 is discharged from the insertion tube 10, it is stirred in the ground to form bulbs, so that the first nozzle unit 30 or the second nozzle unit 50 is clogged to prevent malfunction. be able to do

Here, the quick-setting material of this embodiment, calcium aluminate 450 to 550 parts by weight, anhydrite 450 to 550 parts by weight, and nanoparticles 0.5 to 3.0 parts by weight, and 1 to 10 parts by weight of the setting control agent is made including.

For quick setting, bauxite, anhydrite, quicklime, and fluorspar are mixed at 18:15:3:1, melted at 950 ~ 1,000℃, the melt is poured into a water bath, quenched with water to 50~80℃, and cooled Pulverize the mixture to a fineness of 500-550 m ² /kg to form a mixture, mix the mixture, OPC, and raw blast furnace slag 1:5:4, and add 0.02 to 0.03 parts by weight of a PCE-based liquid water reducing agent with a solid content of 40% or more to the mixture After grinding the mixture to a ^{fineness of 700-800 m 2} /kg.

In this embodiment, the step of discharging air, water, and quick-setting material or discharging the injection material is provided with a bit member 12, is connected to heavy equipment and inserted into the ground, and the first nozzle part 30 on one side of the circumferential surface. and an insertion tube 10 having a second nozzle unit 50 , and a first discharge provided inside the insertion tube 10 , extending along the insertion tube 10 and connected to the first nozzle unit 30 . A first injection tube 32 having a tube 34, and a first injection tube 32 provided inside the first injection tube 32, extending along the first injection tube 32 and connected to the first nozzle unit 30 A second injection pipe 36 having two discharge pipes 38, provided inside the second injection pipe 36, extending along the second injection pipe 36, and connected to the second nozzle unit 50 It is made by a grouting device including a third injection pipe 52 having a third discharge pipe to be.

This embodiment is characterized in that the third injection pipe 52 is further provided as compared with the one embodiment, the injection material is supplied through the third injection pipe 52 , and the high pressure through the first injection pipe 32 . of high-pressure air, water, quick-settling material and injection material discharged to the outside of the insertion tube 10 while supplying rapid payment and water through the second injection pipe 36 are agitated together with the ground and improved underground shape the body.

In this embodiment, when the injection material is discharged by the quick-setting material, hardening takes place within a short time, effectively increasing the strength of the ground at the beginning of the grouting method, reinforcing the soft ground, and at the same time, the injection material is lost by flowing groundwater. can be effectively prevented.

A second discharge pipe 38 having a narrower diameter and an inclined surface is installed in the discharge hole forming the second nozzle unit 50, and when the second discharge pipe 38 is surrounded, the second discharge pipe 38 ), a second nozzle pipe 56 having a wider inner diameter compared to the outer diameter is installed.

Therefore, the injection material discharged through the second discharge pipe 38 is discharged in a straight direction, and the injection material discharged at an interval between the second discharge pipe 38 and the second nozzle pipe 56 is discharged while being collected toward the center of the discharge hole. Therefore, the injection material discharged through the second discharge tube 38 and the injection material discharged through the second nozzle tube 56 are stirred with each other at a distance from the insertion tube 10 to provide an effect of effectively stirring with the ground. do.

As described above, the injection material discharged from the second discharge pipe 38 and the injection material discharged through the second nozzle pipe 56 are stirred at the point where the air, water and rapid payment material discharged from the first nozzle unit 30 are stirred. is stirred at the same time and agitated with the ground to form an improved body.

In this embodiment, since the improved body is formed in the ground within a short time by the action of the quick-setting material, it is possible to more effectively prevent the injection material from being lost by the flowing groundwater.

Accordingly, a quick-setting material is added to prevent the loss of the grout material due to the gap in the ground, and after the grout material is discharged to the ground, it is cured within a short time to form bulbs. It is possible to provide a grouting method for reinforcing soft ground with a large gap and fast running water that can prevent malfunctions in which the steel pipe or the discharge part is blocked by quick-setting materials.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art to which the art pertains. will understand

In addition, the grouting method for reinforcing the soft ground with a large gap and fast running water has been described as an example, but this is only an example. can be used

Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

10: insertion tube 12: bit member
30: first nozzle part 32: first injection pipe
34: first discharge pipe 36: second injection pipe
37: first nozzle tube 37a: blade
38: second discharge pipe 50: second nozzle part
52: third injection pipe 56: second nozzle pipe

Claims (9)

(a) a plurality of injection tubes are provided and the insertion tube having a plurality of flow passages is connected to the equipment capable of puncturing and injection, and inserting the insertion tube into the ground;
(b) discharging air and mixed water along any one of the plurality of injection pipes to crush and stir the ground; and
(c) discharging the injection material along the remaining injection tube among the plurality of injection tubes to form bulbs while stirring the mixed water, ground and injection material discharged in step (b),
The step (b) is made by discharging air and mixed water through the first nozzle part provided in the insertion tube,
The step (c) is made by discharging the injection material through the second nozzle portion provided in the insertion tube and provided to maintain a gap with the first nozzle portion,
Since the air and mixed water discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are agitated in the ground after being discharged from the insertion tube to form bulbs, the first nozzle unit or the second nozzle unit It can prevent malfunction of the part clogging,
The mixed water is made by mixing 3 to 12 parts by weight of a plastic thickener with respect to 100 parts by weight of water,
The injection material is made by mixing 50 to 59 parts by weight of water and 0.3 to 1 parts by weight of a setting adjuster with respect to 100 parts by weight of eco-friendly cement,
The plastic thickening material,
5 to 15 parts by weight of absorbent polymer, 1 to 10 parts by weight of methyl cellulose, and a thickening agent comprising 880 to 995 parts by weight of water.
delete delete (a) a plurality of injection tubes are provided and the insertion tube having a plurality of flow passages is connected to the equipment capable of puncturing and injection, and inserting the insertion tube into the ground;
(b) discharging air, water, and quick-setting material along any one of the plurality of injection tubes to crush and stir the ground; and
(c) discharging the injection material along the remaining injection tube among the plurality of injection tubes to form bulbs while stirring the air, water, quick-setting material, ground and injection material discharged in step (b),
The step (b) is made by discharging air and water quick-setting materials through the first nozzle unit provided in the insertion tube,
The step (c) is made by discharging the injection material through the second nozzle portion provided in the insertion tube and provided to maintain a gap with the first nozzle portion,
Since the air, water and quick-setting material discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are agitated in the ground after being discharged from the insertion tube to form bulbs, the first nozzle unit or the second nozzle unit It can prevent malfunction of the 2 nozzle part clogging,
The quick payment is
Bauxite, anhydrite, quicklime, and fluorspar are mixed at 18:15:3:1, melted at 950 ~ 1,000℃, then poured into a water bath and quenched with water to 50~80℃, and the cooled mixture is finely ground Pulverize at 500~550m ² /kg to form a mixed material,
The mixture, OPC, and raw blast furnace slag are mixed in a ratio of 1:5:4, and after adding 0.02 to 0.03 parts by weight of a PCE-based liquid water reducing agent with a solid content of 40% or more to the mixture, the mixture is pulverized to a powder ^{of 700 to 800 m 2 /kg.} Grouting method for reinforcing soft ground with a large gap and fast running water.
(a) a plurality of injection tubes are provided and the insertion tube having a plurality of flow passages is connected to the equipment capable of puncturing and injection, and inserting the insertion tube into the ground;
(b) discharging air, water, and quick-setting material along any one of the plurality of injection tubes to crush and stir the ground; and
(c) discharging the injection material along the remaining injection tube among the plurality of injection tubes to form bulbs while stirring the air, water, quick-setting material, ground and injection material discharged in step (b),
The step (b) is made by discharging air and water quick-setting materials through the first nozzle unit provided in the insertion tube,
The step (c) is made by discharging the injection material through the second nozzle portion provided in the insertion tube and provided to maintain a gap with the first nozzle portion,
Since the air, water and quick-setting material discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are agitated in the ground after being discharged from the insertion tube to form bulbs, the first nozzle unit or the second nozzle unit It can prevent malfunction of the 2 nozzle part clogging,
The quick-setting material, 450 to 550 parts by weight of calcium aluminate, 450 to 550 parts by weight of anhydrite, 0.5 to 3.0 parts by weight of nanoparticles, and 1 to 10 parts by weight of a setting control agent,
Step (b) or step (c) is,
an insertion tube provided with a bit member, connected to heavy equipment and inserted into the ground, and having a first nozzle part and a second nozzle part on one side of the circumferential surface;
a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part; and
It is provided in the first injection tube, characterized in that made by a grouting device comprising a second injection tube extending along the first injection tube and having a second discharge tube connected to the second nozzle part Grouting method for reinforcing soft ground with large gap and fast running water.
delete According to claim 1 or 4, wherein the step (b) or the step (c),
an insertion tube provided with a bit member, connected to heavy equipment and inserted into the ground, and having a first nozzle part and a second nozzle part on one side of the circumferential surface;
a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part; and
It is provided in the first injection tube, characterized in that made by a grouting device comprising a second injection tube extending along the first injection tube and having a second discharge tube connected to the second nozzle part Grouting method for reinforcing soft ground with large gap and fast running water.
According to claim 1 or 4, wherein the step (b) or the step (c),
an insertion tube provided with a bit member, connected to heavy equipment and inserted into the ground, and having a first nozzle part and a second nozzle part on one side of the circumferential surface;
a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part;
a second injection tube provided inside the first injection tube, the second injection tube extending along the first injection tube and having a second discharge tube connected to the first nozzle part;
It is provided inside the second injection pipe, it is extended along the second injection pipe, characterized in that made by a grouting device comprising a third injection pipe having a third discharge pipe connected to the second nozzle part Grouting method for reinforcing soft ground with large gap and fast running water.

(a) a plurality of injection tubes are provided and the insertion tube having a plurality of flow passages is connected to the equipment capable of puncturing and injection, and inserting the insertion tube into the ground;
(b) discharging air, water, and quick-setting material along any one of the plurality of injection tubes to crush and stir the ground; and
(c) discharging the injection material along the remaining injection tube among the plurality of injection tubes to form bulbs while stirring the air, water, quick-setting material, ground and injection material discharged in step (b),
The step (b) is made by discharging air and water quick-setting materials through the first nozzle unit provided in the insertion tube,
The step (c) is made by discharging the injection material through the second nozzle portion provided in the insertion tube and provided to maintain a gap with the first nozzle portion,
Since the air, water and quick-setting material discharged from the first nozzle unit and the injection material discharged from the second nozzle unit are agitated in the ground after being discharged from the insertion tube to form bulbs, the first nozzle unit or the second nozzle unit It can prevent malfunction of the 2 nozzle part clogging,
The quick-setting material, 450 to 550 parts by weight of calcium aluminate, 450 to 550 parts by weight of anhydrite, 0.5 to 3.0 parts by weight of nanoparticles, and 1 to 10 parts by weight of a setting control agent,
Step (b) or step (c) is,
an insertion tube provided with a bit member, connected to heavy equipment and inserted into the ground, and having a first nozzle part and a second nozzle part on one side of the circumferential surface;
a first injection tube provided inside the insertion tube, extending along the insertion tube and having a first discharge tube connected to the first nozzle part;
a second injection tube provided inside the first injection tube, the second injection tube extending along the first injection tube and having a second discharge tube connected to the first nozzle part;
It is provided inside the second injection pipe, it is extended along the second injection pipe, characterized in that made by a grouting device comprising a third injection pipe having a third discharge pipe connected to the second nozzle part Grouting method for reinforcing soft ground with large gap and fast running water.

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