KR101348533B1 - Grouting device for ground reinforcement and ground reinforcement system - Google Patents

Abstract

The present invention reinforces the ground cavity by expanding the filling range of the injection material using the air pressure during the injection of sand and the like in the underground cavity, ground reinforcement can reduce work time and construction cost by efficient injection work of a wide range of cavity To provide an injection tube device and ground reinforcement system for the. An injection pipe device for ground reinforcement according to an embodiment of the present invention for this purpose, in the injection pipe device for the ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity, the injection material is introduced into the ground cavity from the injection hose An injection tube member in which a discharge port is formed to receive and flow the discharged injection material into the ground cavity; And an injection ring device mounted on the injection pipe member to pass the injection material discharged through the discharge port and increase the discharge distance of the injection material by injecting air together with the discharged injection material.

Description

Injection pipe device and ground reinforcement system for ground reinforcement {GROUTING DEVICE FOR GROUND REINFORCEMENT AND GROUND REINFORCEMENT SYSTEM}

The present invention relates to an injection tube device and a ground reinforcement system for ground reinforcement, and more particularly, to reinforce the ground by increasing the range of filling the injection material such as sand in the ground cavity by high pressure air pressure. An injection tube device and a ground reinforcement system for the present invention.

In the basement of the ground, there can be cavities, which are natural or artificially formed hollow spaces such as natural caves and abandoned mines, and when building structures on the ground spaces where these cavities exist, filling the cavities due to the collapse of the ground. Ground reinforcement needs to be performed.

In general, to fill the ground cavity, the upper ground of the underground cavity is perforated with an injection tube or the like, and then sand or fine aggregate is injected into the injection tube using water to fill the cavity.

However, since the injection method injects sand or fine aggregate into the cavity by using hydraulic pressure, the injection material such as sand does not move to a wide range of cavity, and when the cavity is in groundwater or sediment, it is filled only around the injection tube. The long distance cavity is not filled.

In addition, in order to fill a wide range of cavities, there is a problem in that a lot of construction costs and construction periods are required because a plurality of injection pipes must be perforated to fill the cavity.

The present invention reinforces the ground cavity by expanding the filling range of the injection material using the air pressure during the injection of sand and the like in the underground cavity, ground reinforcement can reduce work time and construction cost by efficient injection work of a wide range of cavity To provide an injection tube device and ground reinforcement system for the.

In addition, in the reinforcement of the ground cavity is to provide an injection tube device and ground reinforcement system for the ground reinforcement to ensure that the effective ground reinforcement is made by the appropriate injection material mix according to the state of the ground cavity or the condition of the ground.

Infusion pipe device for ground reinforcement according to an embodiment of the present invention, in the injection pipe device for ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity, it is introduced into the ground cavity to supply the injection material from the injection hose An injection tube member in which a discharge port is formed to receive and flow and discharge the injection material flowing into the ground cavity; And an injection ring device mounted on the injection pipe member to pass the injection material discharged through the discharge port and increase the discharge distance of the injection material by injecting air together with the discharged injection material.

Also preferably, the injection ring apparatus, an injection ring which is fixed to the discharge port of the injection pipe member, and an air line connected to the injection ring for supplying compressed air from the predetermined compressed air supply source to the injection ring Characterized in that it comprises a.

Also preferably, the injection ring may include a discharge hole communicating with the discharge hole and passing the injection material discharged through the discharge hole, and compressed air supplied from the air line at predetermined intervals along a circumference of the discharge hole. It characterized in that it comprises a plurality of injection holes.

Also preferably, the injection ring is characterized in that it is configured to be formed in the air passage in communication with the plurality of injection holes and the air supplied from the A-line flows.

On the other hand, the injection pipe device for ground reinforcement according to another embodiment of the present invention, in the injection pipe device for ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity, among the first injection material and the second injection material A first injection supply device for selectively supplying any one; A second injection supply device for selectively supplying any one of a third injection material and air; An injection pipe member which is drawn into the ground cavity and is connected to the first injection supply device and in which any one of the first injection material and the second injection material flows; An inner tube provided inside the injection tube member and connected to the second injection supply device to which one of the third injection material and air flows; And a mixing space formed below the inner tube inside the injection tube member to mix the injection material supplied to the injection tube member and the injection material supplied to the inner tube.

Also preferably, the first injection supply device may include a first connection pipe forming a flow passage of the first injection material, a first opening / closing valve for selectively opening and closing the first connection pipe, and the second injection material. A second connection pipe forming a flow passage and a second opening / closing valve for selectively opening and closing the second connection pipe, wherein the second injection supply device comprises a third connection forming a flow passage of the third injection material; A pipe, a third open / close valve for selectively opening and closing the third connecting pipe, a fourth connecting pipe for forming a distribution passage of the air, and an air open / close valve for selectively opening and closing the fourth connecting pipe. It features.

Also preferably, the inner tube may have a length at which a lower end thereof is located higher than an outlet of the injection tube member, and the mixing space may have a predetermined size between the lower end of the injection tube member and the lower end of the inner tube. Characterized in that it is configured to form.

On the other hand, the injection pipe device for ground reinforcement according to another embodiment of the present invention, in the injection pipe device for the ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity, the first injection material and the second injection material A first injection supply device for selectively supplying any one of them; A second injection supply device for selectively supplying any one of a third injection material and air; An injection pipe member which is drawn into the ground cavity and is connected to the first injection supply device so that any one of the first injection material and the second injection material flows and is discharged into the ground cavity; And an injection material mounted on the injection pipe member and passing through the injection material discharged through the discharge port, and connected to the second injection supply device to inject any one of the third injection material and air together with the injection material discharged through the discharge hole. Ring device.

Also preferably, the first injection supply device may include a first connection pipe forming a flow passage of the first injection material, a first opening / closing valve for selectively opening and closing the first connection pipe, and the second injection material. A second connection pipe forming a flow passage and a second opening / closing valve for selectively opening and closing the second connection pipe, wherein the second injection supply device comprises a third connection forming a flow passage of the third injection material; A pipe, a third open / close valve for selectively opening and closing the third connecting pipe, a fourth connecting pipe for forming a distribution passage of the air, and an air open / close valve for selectively opening and closing the fourth connecting pipe. It features.

Also preferably, the injection ring device may be fixed to a discharge port of the injection pipe member, and may be discharged to pass through the injection material communicated with the discharge port and discharged through the discharge port, and predetermined along a circumference of the discharge hole. It is characterized in that it comprises a spray ring including a plurality of injection holes are formed at intervals so that the third injection material or air supplied from the second injection supply device is injected.

On the other hand, the ground reinforcement system according to an embodiment of the present invention, in the ground reinforcement system to reinforce the soft ground in which the ground cavity is formed, the conveying conveyor unit for transporting the aggregate, and the aggregate transported from the conveying conveyor unit in a certain amount A transfer device including a quantitative transfer part to be transferred and a fluid moving part to transfer the aggregate transferred from the quantitative transfer part together with the high pressure fluid; And an injection pipe member which is discharged into the ground cavity and is supplied with the aggregate transported from the transfer device, and flows through the injection pipe member, and an injection hole is formed to be discharged into the ground cavity, and is injected into the injection pipe member and discharged through the discharge hole. And an injection tube device including an injection ring device for increasing the discharge distance of the injection material by injecting air together with the injection material discharged.

Also preferably, the fluid moving part may include a high pressure water pipe connected to a water pump for discharging water at a high pressure, a transfer pipe for allowing aggregate supplied from the fixed quantity transfer part to be mixed with high pressure water, and the transfer pipe. It is characterized in that it comprises a high-pressure pump to increase the moving speed by pumping the injection material mixed with the aggregate and high pressure water.

Also preferably, the fluid moving part is provided with a high pressure water pipe connected with a water pump for discharging water at a high pressure, and connected with the high pressure water pipe and mixes aggregate and high pressure water supplied from the fixed quantity transfer part. It characterized in that it comprises a venturi tube for increasing the speed.

The injection pipe device and the ground reinforcement system for ground reinforcement according to the present invention reinforce the ground cavity by expanding the filling range of the injection material by using the air pressure during the injection of sand and the like in the underground cavity, and efficiently injecting a wide range of the cavity. Work has the effect of reducing work time and construction costs.

In addition, in the reinforcement of the ground cavity has the effect of effective ground reinforcement by the appropriate injection material formulation is made according to the state of the ground cavity or the condition of the ground.

1 is a view showing a ground reinforcement device according to an embodiment of the present invention to the construction of the underground cavity.
FIG. 2 is a view showing another transport apparatus according to another embodiment shown in FIG. 1.
3 is a view showing the front end of the ground reinforcement device according to the embodiment shown in FIG.
4A and 4B are views showing the air spraying device of the tip device shown in FIG.
5 is a view showing a tip device according to another embodiment of the present invention.
6 is a view showing a tip device according to another embodiment of the present invention.

As shown in FIG. 1, the ground reinforcement system according to an exemplary embodiment of the present invention includes a transfer device 100, an injection pipe device 300, and a spray ring device 400.

The conveying apparatus 100 is a conveying conveyor unit 120 for transporting fine aggregates such as sand, and a quantitative conveying unit 140 and a quantitative conveying unit 140 for transporting the sand conveyed from the conveying conveyor unit 120 in a predetermined amount. Sand is transported from) may be made of a fluid moving unit 160 to be transported with the high pressure fluid.

The conveying conveyor unit 120 may be composed of a conveyor belt 124 and a rotating roller 126 to transport the sand discharged from the aggregate discharge port 112 of the aggregate casing 110 to the front.

The fixed quantity transfer unit 140 is installed so that a plurality of impellers 142 formed at predetermined intervals around the rotary shaft 145 and the rotary shaft to be rotatable inside the impeller casing 148, which is transferred from the conveying conveyor unit 120. Allow sand to be distributed and transported in a certain amount.

Therefore, the sand conveyed from the conveying conveyor unit 120 falls to each of the impeller 142 through the opening 146 of the upper part of the impeller casing 148 by a certain amount, so that the impeller 142 rotates and the lower part of the impeller casing 148. A certain amount of sand is transferred through the outlet 149 of.

Meanwhile, the fluid of the fluid moving part 160 may include high pressure water, and the fluid moving part 160 may include the high pressure water pipe 166 and the impeller casing 148 connected to the water pump 164 for discharging water at high pressure. It may be made of a conveying pipe 165 is mixed with a certain amount of sand and high pressure water falling to the bottom. The transfer pipe 165 may be configured to connect the high pressure pump 162 to pump the injection material in which the sand and the high pressure water are mixed to increase the moving speed of the injection material.

Therefore, fine aggregates, such as sand, transferred through the transfer conveyor unit 120 and the fluid moving unit 160 are sand mixed with water by the high pressure water and the high pressure pump 162 discharged from the water pump 164. The sand mixed with the mole is introduced into the injection pipe member 310 to be described later through the injection hose 167 connected to the transfer pipe 164.

Meanwhile, as shown in FIG. 2, the fluid moving unit 160 of the transfer device may move the injection material using a venturi tube instead of a separate high pressure pump 162 to increase the moving speed of the injection material.

The venturi pipe forms a narrow flow passage venturi 161 between the high pressure water pipe 166 and the transfer pipe 165, so that the sand discharged from the discharge pipe 167 of the impeller casing 148 is a high pressure water pipe 166. ) Is mixed with high pressure water flowing in the venturi portion 161 is increased the feed rate of the high pressure water mixed with sand.

On the other hand, with reference to Figure 3 looks at the specific configuration for the injection tube device for ground reinforcement according to an embodiment of the present invention.

 As shown in FIG. 3, the injection pipe device 300 for ground reinforcement according to an embodiment of the present invention is connected to the injection hose 167 for supplying the injection material transferred from the transfer device 100 and is transferred to the injection material. It is configured to include a spraying device 400 which is provided in the injection pipe member 310 and the discharge port 315 of the injection pipe member 310 is provided so that air is injected.

The injection tube member 310 is connected to the injection tube hose 167 is configured to flow the injection material supplied from the injection tube hose 167, water and sand on the outer surface of the lower end of the injection tube member 310 A plurality of discharge ports 315 may be formed to discharge the mixed injection material into the ground cavity 10.

The injection ring device 400 is connected to the air pump 420 at least one air line 410 through which compressed air flows, and at least one injection ring connected to each air line 410 to inject air ( 450).

The air line 410, a plurality of air lines 410 from the one air line 410 provided on the outer surface of the injection tube member 310, the inner surface of the injection tube member 310 as shown in FIG. Branching may be configured to be connected to the plurality of injection ring 450 provided in the discharge port 315 of the injection pipe member 310.

4 and 5 will be described in more detail with respect to the injection ring used in the injection pipe device for ground reinforcement according to an embodiment of the present invention.

Figure 4 is a perspective view showing a larger view of the injection ring shown in Figure 3, Figure 5 shows a front view of the injection ring shown in FIG.

As a compressed air supply source for supplying compressed air through the air line 410, an air pump 420 may be provided as an air compressor for compressing and discharging air, and the injection ring 450 is illustrated in FIG. 4. As shown in the figure, the discharge hole 454 communicating with the discharge port 315 of the injection tube member 310 may be configured in the form of a tube. The air line 410 may be coupled to and connected to a connection portion 453 provided in the injection ring 450.

As shown in FIG. 4, the injection ring 450 may have air passages 452-a and 452-b in which air supplied from the air line 410 flows along the inner circumference of the injection ring 450. The air flow passages 452-a and 452-b communicate with a plurality of injection holes 451 formed at predetermined intervals along the circumference of the discharge hole 454 of the injection ring 450 to connect each injection hole 451. Preferably, the air is configured to be injected into the ground cavity (10).

Therefore, the injection material mixed with water and sand transported by the transfer device 100 described above is introduced into the injection pipe member 310 through an injection hose, and the water and sand are formed under the injection pipe member 310. The injection material is discharged through the plurality of discharge holes 315 and passes through the injection material through which the discharge holes 454 of the injection rings 450 communicating with the discharge holes 315 are discharged so that the injection material can be injected into the ground cavity 10. do.

At the same time, as the high pressure air is injected through the injection hole 451, the injection speed of the surrounding injection material is increased by the air pressure, so that the injection material is discharged and filled up to a long distance in the ground cavity 10.

On the other hand, with reference to Figure 6 will be described the configuration of the injection pipe device for ground reinforcement according to another embodiment of the present invention.

As shown in FIG. 6, the injection pipe device according to another embodiment of the present invention may include a first injection supply device 500, a second injection supply device 600, and an injection pipe member 310. It includes an inner tube 320 provided in the injection tube member 310, and a mixing space (S) formed in the injection tube member 310.

The injection pipe member 310 is connected to the first injection supply device 500 and the second injection supply device 600, the internal space in which the first injection material, the second injection material, the third injection material and air selectively flow and mix Preferably, it is formed, and a plurality of discharge ports 315 may be formed at the lower end of the injection tube member 310.

The first injection supply device 500 is a device for selectively supplying any one of the first injection material and the second injection material, the first injection material supply unit 512 for supplying the first injection material and the second injection material for supplying It may include two injection material supply unit 522.

The first injection material may include aggregates, such as water and sand, the first injection material supply unit 512 may be the transfer device 100 described above, a high-pressure pump or water pump for pumping separate water or sand. It may be configured to include.

The first injection material supply unit 512 is provided in the first connection pipe 510 and the first connection pipe 510 which form a flow passage through which water and sand supplied from the first injection material supply unit 512 flow. A first opening and closing valve 515 for selectively opening and closing the first connecting pipe 510 may be provided.

The second injection material may include a mortar or cement powder, and the second injection material supply unit 522 may include a mortar pump for pumping mortar or a cement powder supply pump for pumping cement powder.

The second injection material supply unit 522 is provided in the second connection pipe 520 and the second connection pipe 520 through which the second injection material such as mortar or cement powder supplied from the second injection material supply unit 522 flows. It may be configured to have a second opening and closing valve 525 to selectively open and close the flow passage.

The first connection pipe 510 and the second connection pipe 520 are connected in parallel, as shown in Figure 7, so that the first injection material or the second injection material is selectively flown of the injection pipe member 310 It can be connected to the top to be introduced.

On the other hand, the third injection material may include a fastener for quickly solidifying mortar or cement, etc., the third connection pipe 620 and the third connected to the third injection material supply unit 622 to flow the fastener The connection pipe 620 may be provided with a third opening and closing valve 625 to selectively open and close the flow passage.

The air supply unit 612 may include an air compressor, and the fourth opening and closing valve is provided in the fourth connecting pipe 610 and the fourth connecting pipe 610 through which air flows to selectively open and close the flow passage. 615 may be provided.

The third connecting pipe 620 and the fourth connecting pipe 610 are connected in parallel so that the third injection material and air is selectively introduced into the injection pipe member 310, the third connecting pipe 620 connected in parallel. ) And the fourth connection pipe 610 is preferably connected to the inner tube 320 provided in the injection tube member 310.

That is, the injection material supplied through the first injection supply device 500 is introduced into the injection pipe member 310, and the injection material or air supplied through the second injection supply device 600 is provided through the inner tube 320. Configured to flow.

In this case, the injection material supplied through the first injection supply device 500 and the fastener or air flowing through the inner tube 320 are mixed with each other in the mixing space S to be discharged through the discharge port 315. desirable.

Here, the injection pipe member 310 has a plurality of injection holes 315 for discharging the first injection material or the second injection material supplied therein and the third injection material or air supplied through the inner tube 320 to the outside. It is formed, the inner tube 320 is formed with a length of the lower end is located above the discharge port of the injection pipe member 310, the mixing space (S), the discharge port 315 and the inner tube It is preferably configured to be formed in a predetermined size between the bottom of the 320.

Referring to FIG. 6, a process of injecting injection material into the ground cavity 10 by the first injection supply device 500 and the second injection supply device 600 of the injection tube device according to another embodiment of the present invention will be described. do.

First, in the case of filling the first injection material according to the state of the ground cavity 10, the first opening and closing valve 515 is opened so that the first injection material flows through the first connection pipe 510, and thus inside the injection pipe member 310. To be introduced into the mixing space (S), and at the same time by opening the fourth opening and closing valve 615, the air flows through the fourth connecting pipe 610 and the inner pipe 320, the mixing space inside the injection pipe member 310 When introduced into (S), the first injection material is mixed with the air in the mixing space (S) is discharged to the ground cavity (10) through a plurality of discharge ports 315 formed in the injection pipe member 310 at the air pressure of the air and high pressure By the air of the first cavity is moved and charged to a far distance of the ground cavity (10).

In addition, in the case of injecting the second injection material according to the state of the ground cavity 10, the second opening / closing valve 525 is opened to allow the second injection material to flow through the second connection pipe 520, and thus to the inside of the injection pipe member 310. To be introduced into the mixing space (S), and at the same time open the fourth opening and closing valve 615 to supply air through the inner tube 320 to the mixing space (S) to the second injection material and air in the mixing space (S) Mixing with each other allows the second injection material to discharge a greater distance by the pressure of air.

At this time, the discharge distance of the second injection material may be adjusted by adjusting the pressure of air.

The injection tube device according to the embodiment shown in FIG. 6 has the advantage of being able to flexibly respond to various states of the ground cavity to be reinforced.

For example, when the ground cavity is filled with groundwater, the outlet 315 in the mixing space S by supplying high-pressure air from the second injection supply device 600 while supplying water and aggregate from the first injection supply device 500. When discharged to the outside through the pressure of the air can be discharged to a greater distance to the aggregate.

In addition, in the case where grout is injected by injecting mortar and a fastener into the ground cavity, the fastener is supplied from the second injection feeder 600 while supplying mortar from the first injection feeder 500 in the mixing space S. The mortar and the fastener may be mixed with each other to be discharged to the ground cavity through the discharge hole 315.

In addition, in filling the ground cavity, water and aggregate are injected together with air, and when the injection is completed to a certain level, water and aggregate and air may be stopped and cement powder may be injected together with air. The cement powder can be discharged to a very long distance by the pressure of the air, and the cement powder is supplied to the ground cavity to some extent, so that the cement powder can absorb the water and make the aggregate accumulated more firmly. After the cement powder is injected to a certain level, water and aggregate can be injected again with air, and this can be repeated to make the filling of the ground cavity firm and stable.

On the other hand, with reference to Figure 7 will be described the configuration of the injection tube device according to another embodiment of the present invention.

As shown in FIG. 7, the injection pipe device according to another embodiment of the present invention includes a first injection supply device 500 and a second injection supply device 600, an injection pipe member 310, and an injection ring device ( 400).

A plurality of discharge ports 315 are formed at the lower end side of the injection pipe member 310, and each of the discharge holes 315 may be fixed so that the injection ring 450 is detachable.

The first injection supply device 500 may be connected to the injection pipe member 310, and the second injection supply device 600 may be connected to the injection ring 450.

Here, the matters relating to the first injection supply device 500 and the second injection supply device 600 are substantially the same as those of the embodiment shown in FIG. 6, and thus a detailed description thereof will be omitted.

And the injection ring device 400 is configured to include an air line 410 and the injection ring 450 is connected to the second injection supply device 600, the details of which are shown in Figs. Since it is substantially the same as the detailed description thereof will be omitted.

The injection ring 450 is connected to the air line 410 and the air line 410 is connected to the second injection supply device 600, the third injection material supplied from the second injection supply device 600 (Such as a fastener) or air is supplied to the injection ring 450 via the air line 410 may be injected.

For example, when the first injection material is supplied from the first injection supply device 500 and flows through the injection pipe member 310 to be discharged through the discharge port 315, the second injection supply device 600 injects high pressure air. The air is radially injected along the first injection material circumference supplied and discharged to the ring 450 so that the first injection material can be discharged to a greater distance in the ground cavity.

In addition, when grouting the ground cavity, the mortar is supplied from the first injection supply device 500 as the second injection material to flow through the injection pipe member 310 to discharge the mortar through the discharge port 315. In this case, if the fastening is not necessary, the second injection supply device 600 may supply air to allow the air to be injected through the injection ring 450 to further increase the ejection distance of the mortar. If the need for fastening of the second injection supply device 600 may supply a fastener so that the mortar passing through the injection ring 450 can be injected into the ground cavity with the fastener.

100: transfer device 120: transfer conveyor unit
140; Metering unit 160: fluid moving unit
300: injection tube device 310: injection tube member
400; Injection ring device 410: Airline
450: injection ring 451: injection hole
500: first injection feed apparatus 600; Second injection supply device

Claims (13)

In the injection pipe device for ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity,
An injection tube member which is introduced into the ground cavity and receives the injection material from the injection hose and flows therein, and a discharge hole is formed to discharge the flowing injection material into the ground cavity; And
And an injection ring device mounted on the injection pipe member to pass the injection material discharged through the discharge port and increase the discharge distance of the injection material by injecting air together with the discharged injection material.
The injection ring device is a tube having a discharge hole formed in the center of the injection ring and the discharge hole of the injection tube member and the injection hole fixed to be detachable to the injection tube member so that the discharge hole is in communication with, and connected to the injection ring from the compressed air supply source An air line for supplying compressed air to the injection ring,
The injection ring is configured such that a plurality of air flow paths through which air supplied from the air line flows is formed along an inner circumference of a tube shape, and a plurality of injection holes are formed at predetermined intervals along a circumference of the discharge hole. And each air passage is configured to communicate with each of the injection holes so that the air supplied from the air line is injected through the injection holes through the air passage. delete delete delete delete delete delete In the injection pipe device for ground reinforcement for reinforcing the soft ground by injecting the injection material in the ground cavity,
A first injection supply device for selectively supplying any one of the first injection material and the second injection material;
A second injection supply device for selectively supplying any one of a third injection material and air;
An injection pipe member which is drawn into the ground cavity and is connected to the first injection supply device so that any one of the first injection material and the second injection material flows and is discharged into the ground cavity; And
An injection ring mounted on the injection pipe member and passing through the injection material discharged through the discharge port, and connected to the second injection supply device to inject any one of the third injection material and air together with the injection material discharged through the discharge hole; Device,
The injection ring device is connected to the second injection supply device including a injection ring fixed to the injection pipe member so that the discharge hole and the discharge hole of the injection tube member in the form of a tube formed with a discharge hole in the center is connected It is configured to inject a third injection material or air supplied from the second injection supply device,
The injection ring is configured such that a plurality of third injection materials supplied from the second injection supply device or air flows through which air flows is formed along an inner circumference of a tube shape, and formed at predetermined intervals along a circumference of the discharge hole. Two injection holes are formed, the air passages are configured to communicate with each of the injection holes, and the third injection material or air is configured to be injected through the injection holes through the air passages,
The first injection supply device,
A first connecting pipe forming a flow passage of the first injection material, a first opening / closing valve to selectively open and close the first connecting pipe, a second connecting pipe forming a flow passage of the second injection material, and the first connection pipe. A second opening / closing valve for selectively opening and closing the second connecting pipe,
The second injection supply device,
A third connecting pipe forming a flow passage of the third injection material, a third opening and closing valve for selectively opening and closing the third connecting pipe, a fourth connecting pipe forming a flow passage of the air, and the fourth connection Injection pipe device for ground reinforcement comprising a fourth opening and closing valve for selectively opening and closing the pipe. delete delete In the ground reinforcement system for reinforcing soft ground having ground cavity,
Transfer comprising a transfer conveyor unit for transporting aggregate, a quantitative transfer unit for transferring the aggregate conveyed from the conveying conveyor unit in a certain amount, and a fluid moving unit for transferring the aggregate transferred from the quantitative transfer unit with the high pressure fluid Device; And
The discharge pipe passes through the injection pipe member which is discharged into the ground cavity and is supplied with the aggregate transported from the transfer device, and has a discharge port formed to discharge the ground cavity, and the injection material mounted to the injection pipe member and discharged through the discharge hole. And an injection tube device including an injection ring device for increasing the discharge distance of the injection material by injecting air together with the injection material,
The injection ring device is a tube having a discharge hole formed in the center of the injection ring and the discharge hole of the injection tube member and the injection hole fixed to be detachable to the injection tube member so that the discharge hole is in communication with, and connected to the injection ring from the compressed air supply source An air line for supplying compressed air to the injection ring,
The injection ring is configured such that a plurality of air flow paths through which air supplied from the air line flows is formed along an inner circumference of a tube shape, and a plurality of injection holes are formed at predetermined intervals along a circumference of the discharge hole. The air passages are configured to communicate with each of the injection holes so that air supplied from the air line is injected through the injection holes through the air passages.
The fluid moving unit,
A high pressure water pipe connected to a water pump for discharging water at a high pressure, a transfer pipe for moving the aggregate supplied from the fixed quantity transfer unit with high pressure water, and an injection material provided in the transfer pipe to mix aggregate and high pressure water Ground reinforcement system comprising a high-pressure pump to increase the moving speed by pumping. delete delete

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