KR102155058B1 - Steel pipe multi-stage grouting device - Google Patents

Abstract

The present invention relates to a steel pipe multistage grouting device that prevents damage when inserted into a perforated hole by installing a grout injection pipe of an outer packer inside the steel pipe, and eliminates expansion by tensile force by fixing the inner packer to the steel pipe in advance. In the steel pipe multi-stage grouting device installed with a steel pipe inserted into the perforated hole, and a plurality of inner packers and outer packers spaced up and down on the inner and the sides of the steel pipe, the inner packer includes a plurality of inner packer injection pipes and , The outer packer injection pipe with a plurality of coupling holes is penetrated through the outer packer injection pipe, which is spaced vertically, to form a packer assembly, and a plurality of insertion holes are formed to be located inside the outer packer in the steel pipe into which the packer assembly is inserted, and the insertion In the hole, an injection nozzle for injecting grout into the outer packer is inserted and coupled to the coupling hole, and a male screw is formed at the tip of the injection nozzle, and a female screw is formed in the coupling hole so that the injection nozzle can be screwed. In the steel pipe, a plurality of injection holes are formed at vertical intervals, and an inner packer is fixed to form a multi-stage sealing layer inside the steel pipe by injecting a liquid fixing agent made of either urethane or silicone into the injection hole. And, it characterized in that the fixing plate is coupled to the upper side and the lower side of the inner packer.
Therefore, the outer packer injection pipe that injects grout into the outer packer is combined with the packer assembly and installed inside the steel pipe, thereby minimizing the diameter of the steel pipe multistage grouting device, making it easier to insert the steel pipe into the perforated hole, as well as the external packer injection. There is no fear of damage to the tube during insertion. In addition, by fixing a plurality of inner packers to a steel pipe before inserting the present invention into the perforated hole to form a multi-stage sealing layer, it is possible to omit the process of expanding the inner packer by applying a tensile force from the outside, thereby reducing construction time. have.

Description

Steel pipe multi-stage grouting device

The present invention relates to an apparatus used in the steel pipe multi-stage grouting method, and more particularly, by installing the grout injection pipe of the outer packer inside the steel pipe to prevent damage when inserted into the perforated hole, and fix the inner packer to the steel pipe in advance. It relates to a steel pipe multi-stage grouting apparatus capable of omitting the expansion operation by tensile force.

The construction of tunnels and underground structures in large cities is increasing significantly for reasons such as solving the problem of traffic problems caused by the increase in urban population, improving the city aesthetics, and maximizing the land use rate. On the other hand, construction conditions such as damage prevention are getting worse and worse, but in recent years, due to the continuous occurrence of various safety accidents, safety construction has been demanded first.

On the other hand, the strength of the ground varies depending on the conditions such as soil composition, size, pore ratio, water content, the joint characteristics of the rock mass, and the degree of weathering.If the strength of the ground is not high or the groundwater level is high, or adjacent buildings Therefore, when there is a concern about damage to the adjacent building due to the relaxation of the ground due to excavation, it is common to proceed with an auxiliary method for stabilizing the ground in parallel with the excavation method for constructing the structure.

The most common of these auxiliary methods is the injection method in which a water-resistant chemical is injected into the ground, and the above injection method can expect the order effect, but the effect of reinforcing the ground cannot be greatly expected. In particular, the bending of the upper surface of the excavation In the excavation construction of a tunnel that requires rigidity, there are many restrictions on application.

Among the methods developed to solve the problems of the injection method as described above, one of the most popular ones is the steel pipe multi-stage grouting method, which is ⅰ) the step of drilling the ground, ii) a steel pipe with injection holes at regular intervals. Inserting into the perforated hole, iii) caulking between the outer wall of the rear end of the steel pipe and the perforated hole to prevent leakage of groundwater, outflow of soil and backflow of the injection material, iv) limited flow while preventing reverse flow of the injection material. Injecting the sealing material between the outer wall of the steel pipe and the perforated hole so that it is injected only within the range, ⅴ) installing the packer inside the steel pipe, and ⅵ) injecting through the injection hole set by the packer.

The above-described steel pipe multi-stage grouting method uses grout material to form an integrated beam structure and flexural stiffness by forming an integrated beam structure by using a grout material to support the load on the upper part and disperse the earth pressure to ensure the structural structure of the excavation surface. It can be said that it is a very advantageous construction method structurally in that it improves stability.

However, the sealing material injected between the outer wall of the steel pipe and the perforated hole is specially manufactured by mixing cement-based and bentonite so that the volume expands so that no space is left and the solidification strength is not too high so that the injection material can penetrate the sealing material and spread widely in the ground. , In order to exhibit the above function, a solidification time of about 12 hours is required, and since the injection material is sequentially injected into each compartment partitioned by the packer, there is a problem that the construction period is lengthened.

In order to solve this problem, a grouting device using a double packer that forms a packer outside and inside of a steel pipe (grout tube) is proposed in Korean Patent Publication No. 10-1045727, but such a conventional double packer grouting device Since the plurality of second packers coupled to the inside of the steel pipe cannot be expanded arbitrarily, there is a limit in forming a more tightly sealed compartment.

Therefore, in Patent Application No. 10-2018-0098010, the applicant of the present application developed an inner packer coupling structure of a steel pipe multistage grouting device that can more easily form a tight sealing layer by applying pressure to a plurality of inner packers by a simple operation. I have suggested.

The invention is applied to the steel pipe multi-stage grouting method for reinforcing the strength of the ground as shown in Fig. 1, and inserting the steel pipe 4 into the inside of the perforated hole H formed on the slope, and the steel pipe 4 The grout is poured inside by combining the outer injection pipe 1a with the injection hole 1b formed into the plurality of outer packers 1 installed on the outside of the outer packer 1, and accordingly, the outer packer 1 expands and the perforation hole ( A multi-stage sealing layer is formed on the inside of H).

A plurality of inner packers (3) (3a) (3b) are installed inside the steel pipe (4), and the inner packers (3) (3a) (3b) are inside the steel pipe (4) forming a plurality of layers. Each of the inner injection pipes (2) (2a) and (2b) are combined so that grout can be injected, and the grout injected into the steel pipe (4) is discharged through the discharge hole (4a) to fill the hole (H). I will cry.

The inner packer (3) (3a) (3b) and the inner injection pipe (2) (2a) (2b) of the present invention are inserted and installed inside the steel pipe (4), and the inner packer (3) is installed by a tensile force applied from the outside. )(3a)(3b) expands and closely adheres to the inner circumferential surface of the steel pipe 4 to form a multi-stage sealing layer inside the steel pipe 4.

However, in the above invention, since the external injection pipe (1a) is installed outside the steel pipe (4), when inserting the steel pipe (4) and the external injection pipe (1a) into the drilling hole (H), the inner circumferential surface of the drilling hole (H) There is a problem that the external injection pipe 1a is damaged due to close contact.

In addition, since a plurality of stoppers are installed on the steel pipe 4 and the inner packers 3, 3a, 3b must be expanded and fixed by applying a tensile force from the outside, there is a problem that the manufacturing cost and construction cost increase.

The present invention is to solve the above problems, and by installing an injection pipe for injecting grout inside the outer packer on the inside of the steel pipe, it is possible to prevent the injection pipe from being damaged when the device is inserted into the perforated hole. It is an object to provide a multistage grouting device.

In addition, another object of the present invention is to provide a steel pipe multistage grouting apparatus capable of omitting the process of applying a tensile force from the outside by forming a multistage sealing layer by pre-fixing the inner packer to the inside of the steel pipe.

In the steel pipe multistage grouting apparatus according to the present invention, in the steel pipe multistage grouting apparatus, a steel pipe is inserted into the perforated hole, and a plurality of inner packers and outer packers are spaced up and down at the inner side and the side of the steel pipe, the inner packer A plurality of inner packer injection pipes and an outer packer injection pipe with a plurality of coupling holes formed at an upper and lower interval are passed through to form a packer assembly, and a plurality of insertion holes are provided in the steel pipe into which the packer assembly is inserted. It is formed so as to be positioned, the injection nozzle for injecting grout into the outer packer is inserted into the insertion hole and coupled to the coupling hole, a male screw is formed at the tip of the injection nozzle, and the injection nozzle can be screwed into the coupling hole. A female screw is formed so that the steel pipe is spaced vertically and a plurality of injection holes are formed, and a liquid fixing agent made of either urethane or silicone is injected into the injection hole to form a multi-stage sealing layer inside the steel pipe. The inner packer is fixed to be able to do so, and a fixing plate is coupled to the upper and lower sides of the inner packer.

According to the steel pipe multistage grouting device according to the present invention, the outer packer injection pipe for injecting grout into the outer packer is combined with the packer assembly and installed inside the steel pipe, so that the diameter of the steel pipe multistage grouting device is minimized and the steel pipe can be inserted into the perforated hole. Not only is it easier to use, but there is no fear of damage to the external packer injection pipe during insertion.

In addition, by fixing a plurality of inner packers to a steel pipe before inserting the present invention into the perforated hole to form a multi-stage sealing layer, it is possible to omit the process of expanding the inner packer by applying a tensile force from the outside, thereby reducing construction time. have.

In addition, it is possible to reduce the manufacturing cost and construction cost by configuring the packer assembly and the steel pipe by a simple configuration and coupling structure, there is a more economical effect.

1 is a cross-sectional view showing an installation state of a conventional steel pipe multistage grouting device
Figure 2 is a cross-sectional view showing the installation state of the steel pipe multistage grouting device of the present invention
3 is a perspective view of a packer assembly according to the present invention
4 is a cross-sectional view showing a process of combining a packer assembly and a steel pipe according to the present invention
5 is a cross-sectional view showing a state in which the packer assembly of the present invention and a steel pipe are combined
6 is a cross-sectional view showing a state in which the inner packer of the present invention is fixed by a fixing agent
7 is a cross-sectional view showing a state in which the injection nozzle of the present invention is coupled to an external packer injection pipe
Figure 8 is a cross-sectional view showing a state in which the outer packer is coupled to the outside of the injection nozzle of the present invention
9 is a cross-sectional view showing another embodiment of the present invention

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The steel pipe multi-stage grouting apparatus of the present invention is applied to the steel pipe multi-stage grouting method for reinforcing the strength of the ground, as shown in FIG. 2, and the packer assembly 100 and the steel pipe are inside the perforated holes H formed on the slope. 200) is inserted, and grout is poured through the inner packer injection pipe 20 and the outer packer injection pipe 30.

At this time, the outer packer injection pipe 30 is inserted and installed inside the steel pipe 200 to inject grout into the outer packer 70 through the injection nozzle 61, and the plurality of inner packers 10 have a tensile force from the outside. It is configured to be fixed to the inside of the steel pipe 200 in advance before inserting the present invention into the perforated hole (H) without the need to expand by adding.

As shown in FIG. 3, the packer assembly 100 includes a plurality of inner packers 10 made of rubber at vertical intervals, and a plurality of holes formed at the upper and lower sides of the inner packer 10. The material fixing plate 11 is combined.

A plurality of inner packer injection pipes 20 are coupled through the inner packer 10 and the fixing plate 11, and an outer packer injection pipe 30 is coupled to one side, and the inner packer injection pipe 20 ) And an upper plate 12 made of a metal material for sealing the upper entrance of the steel pipe 200 is coupled to the upper side of the outer packer injection pipe 30.

The lower end of the inner packer injection pipe 20 is coupled to form a step so as to be positioned below the plurality of inner packers 10 respectively, and the outer packer injection pipe 30 is spaced vertically and a plurality of coupling holes 31 ) Is formed.

As shown in FIG. 4, the packer assembly 100 is installed by inserting the lower end into the inner side of the sealed steel pipe 200, and the grout injected through the inner packer injection pipe 20 on the outer circumferential surface of the steel pipe 200 A plurality of discharge holes 40 are formed so as to discharge to the perforated hole (H) side.

In addition, a plurality of injection holes 41 and insertion holes 42 are formed vertically at intervals on the outer circumferential surface of the steel pipe 200, and as shown in FIG. 5, the packer assembly 100 is inserted into the steel pipe 200. When installed, the plurality of injection holes 41 are formed at positions corresponding to the inner packer 10, respectively, as shown in the enlarged view.

In the injection hole 41, a liquid fixing agent 50 is injected into the space between the inner packer 10 and the inner circumferential surface of the steel pipe 200 as shown in the enlarged view of the upper part of FIG. 6, and the fixing agent 50 is solidified. Accordingly, a plurality of inner packers 10 are firmly fixed to the steel pipe 200 to form a multi-stage sealed layer inside the steel pipe 200.

It is preferable to use urethane or silicone as the material of the fixing agent 50.

And in the insertion hole 42 of the steel pipe 200, the fixing ring 60 is in close contact with the outer circumferential surface as shown in the enlarged view of the lower part of FIG. 6, and the injection nozzle 61 is inserted into the fixing ring 60 and the insertion hole 42. ) Is inserted into the coupling hole 31 of the outer packer injection pipe 30.

In order to more easily and firmly couple the injection nozzle 61 to the coupling hole 31, a male screw is formed at the tip of the injection nozzle 61, and a female screw is formed on the inner circumferential surface of the coupling hole 31 and screwed. Combine as shown in Figure 7.

The injection nozzle 61 coupled in this way is connected to the outer packer injection pipe 30 and protrudes to the outside of the steel pipe 200, and the injection nozzle 61 on the outside of the steel pipe 200 as shown in FIG. And a plurality of outer packers 70 are combined.

The steel pipe multi-stage grouting device of the present invention configured as described above inserts the steel pipe 200 in which the packer assembly 100 and the outer packer 70 are combined into the perforation hole H as shown in FIG. 2, and the inner packer injection pipe 20 And when grout is injected through the outer packer injection pipe 30, the grout injected into the multi-stage sealing layer by the inner packer 10 is discharged through the discharge hole 40 to fill the perforated hole H. , The grout discharged through the injection nozzle 61 expands the outer packer 70 to firmly fix the present invention in the perforated hole (H).

In addition, as another embodiment of the present invention, as shown in FIG. 9, the coupling hole 31 and the insertion hole 42 are installed in a closed space formed between the upper and lower inner packers 10, and the insertion hole By combining the outer packer 70 so that the 42 is positioned on the inside, the grout may be directly injected into the outer packer 70 through the coupling hole 31 and the insertion hole 42 without coupling the injection nozzle 61. .

Therefore, in the present invention, the outer packer injection pipe 30 for injecting grout into the outer packer 70 is combined with the packer assembly 100 and installed inside the steel pipe 200, thereby minimizing the diameter of the steel pipe multistage grouting device, When inserting 200) into the perforated hole H, it is easier to insert, and there is no fear that the outer packer injection pipe 30 will be damaged during insertion.

In addition, before inserting the present invention into the perforated hole (H), a plurality of inner packers 10 are fixed to the steel pipe 200 to form a multi-stage sealing layer, thereby applying a tensile force from the outside to expand the inner packer 10 As can be omitted, there is an effect of shortening the construction time.

In addition, by configuring the packer assembly 100 and the steel pipe 200 by a simple configuration and a coupling structure, it is possible to reduce the manufacturing cost and the construction cost, there is a more economic effect.

10: inner packer 11: fixed plate
12: upper plate 20: inner packer injection pipe
30: external packer injection pipe 31: coupling hole
40: discharge hole 41: injection hole
42: insertion hole 50: fixing agent
60: retaining ring 61: injection nozzle
70: outer packer 100: packer assembly
200: steel pipe

Claims (5)

In the steel pipe multi-stage grouting apparatus, a steel pipe is inserted into the perforated hole, and a plurality of inner and outer packers are installed at an upper and lower interval on the inner side and the side of the steel pipe,
In the inner packer 10, a plurality of inner packer injection pipes 20 and an outer packer injection pipe 30 formed with a plurality of coupling holes 31 spaced up and down are passed through to form a packer assembly 100, In the steel pipe 200 into which the packer assembly 100 is inserted, a plurality of insertion holes 42 are formed to be located inside the outer packer 70, and the insertion hole 42 has a grout on the outer packer 70. The injection nozzle 61 for injecting is inserted and coupled to the coupling hole 31, and a male screw is formed at the tip of the injection nozzle 61, and the injection nozzle 61 is screwed into the coupling hole 31. The female thread is formed so that it can be
In the steel pipe 200, a plurality of injection holes 41 are formed at vertical intervals, and a liquid fixing agent 50 made of either urethane or silicon is injected into the injection hole 41 to make the steel pipe 200 The inner packer (10) is fixed to form a multistage sealing layer on the inside of the steel pipe multistage grouting apparatus, characterized in that the fixing plate (11) is coupled to the upper and lower sides of the inner packer (10). The method of claim 1,
The coupling hole 31 and the insertion hole 42 are located in a closed space formed between the upper and lower inner packers 10 so that the coupling of the injection nozzle 61 can be omitted. . delete delete delete

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