KR101087155B1 - Grout same time injection method for steel pipe reinforcement - Google Patents

Abstract

PURPOSE: A simultaneous grout injection method for the reinforcement of a steel pipe is provided to remarkably reduce components required for a steel pipe reinforcing work. CONSTITUTION: A simultaneous grout injection method for the reinforcement of a steel pipe is as follows. A simultaneous grout injection device, composed of packer fixing rings(50), packers(60), grout injection pipes(30), and packer expanding injection pipes(40), is manufactured. The manufactured simultaneous grout injection device is inserted into a steel pipe(20). The inlet of the steel pipe is closed. A packer expanding pump is connected to the packer expanding injection pipe. A grout material injecting pump is connected to the grout injection pipes. A grout material is injected into each packer by operating the packer expanding pump, and spaces(22) are cut off by expanding the packers. When the spaces are cut off, the grout material is injected into the spaces by operating the grout material injecting pump.

Description

Grout SAME TIME INJECTION METHOD FOR STEEL PIPE REINFORCEMENT

The present invention relates to a method for simultaneously injecting a grout for reinforcing a steel pipe, and more particularly, to a method for simultaneously injecting a grout for reinforcing a steel pipe using a minimum packer and an injection pipe.

In general, the ground improvement method, which is carried out to strengthen the soft ground, is a method of drilling a hole in the soft ground and forcibly solidifying it by injecting a fluid mortar (grouting material) or a chemical solution.

As an example, a grouting steel pipe having an ejection hole is formed in an excavation hole, and a packer retaining ring is respectively installed inside the grouting steel pipe to divide the inside of the grouting steel pipe into various spaces and then expand the packer installed between each packer retaining ring. It is configured to block each space and inject grout material into each space.

However, the grout injection device for reinforcing steel pipes according to the prior art has the following problems.

That is, when the inside of the grouting steel pipe is divided into a plurality of spaces by each packer, a plurality of packer extension pipes and a plurality of grout injection pipes must be provided, resulting in a complicated structure and a lot of parts.

The technical problem of the present invention is to provide a method for simultaneously injecting a grout for reinforcing steel pipes having a simple structure and small parts.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those skilled in the art from the following description. There will be.

The above technical problem is to reinforce the steel pipe by injecting a grout material into each space after dividing the inside of the steel pipe installed in the excavation hole into a plurality of spaces by providing a plurality of ejection holes according to the present invention.

A plurality of pair of packer fixing rings which are installed to maintain a gap inside the steel pipe to form spaces separated from each other;

Packers installed between each of the packer retaining ring;

It is connected to a pump for expanding the packer, and is installed through the packer retaining ring and the packers, and in each region where the packer is located, each of the perforated packer injecting tubes for expanding packers is formed; And

It is connected to the pump for grouting material injection, and is installed through each of the packer fixing rings and the packer so that the end portion is located in the inner last space portion of the steel pipe. A method for simultaneously injecting a grout into a steel pipe using a simultaneous grouting device for reinforcing a steel pipe including one or more grout injection pipes,

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a) a plurality of pairs of packer retaining rings and packers that divide the inside of the steel pipe into several spaces, and a packer injector for expanding the packer so that the injectors for expansion are located in each packer; And through the packers, the grout injection tube is coupled to each packer retaining ring and the packer, and each injection jet hole is located in each space portion and the end portion is fixed to each packer and packer to be located in the space portion inside the steel pipe. Constructing a grout simultaneous injection device by penetrating the ring;

b) drilling an excavation hole in the ground;

c) disposing a steel pipe having a blowout hole in the excavation hole, arranging an air discharge pipe between the excavation hole and the steel pipe, and caulking between the steel pipe and the excavation hole;

d) after inserting and installing the grout simultaneous injection device prepared in step a) into the steel pipe, closing the inlet of the steel pipe;

e) connecting the pump for expanding the packer to the injection tube for expanding the packer, and connecting the pump for grouting material to the grout injection tube;

f) operating the pump for expanding the packer so that the grout material is injected into each packer through the respective expansion injection holes to expand the packer to block each space portion;

g) When each space portion is blocked by the expansion of the respective packers by the step f), the grout material injection pump is operated to fill the grout material through each injection jet hole and the end portion to fill each space portion. It is achieved by a grout co-injection method using a grouting co-injection device for reinforcing steel pipe, characterized in that comprises a.

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According to the present invention, a plurality of expansion injection holes are formed in the injector for expanding the packer, and the packer can be expanded into a single packer expansion injector while the interior of the packer steel pipe is partitioned into several spaces by a plurality of packers. In addition, since a plurality of injection jet holes are formed in the grout injection tube, grouting may be injected into each space portion and filled with a minimum grout injection tube. Thus, not only can the simultaneous injection of grouting to reinforce the steel pipe be made quickly and easily, but also the effect of significantly reducing the parts of the device required for the steel pipe reinforcement operation is provided.

In addition, since the grouting simultaneous injection device for reinforcing the steel pipe is pre-assembled and manufactured, the installation of the injection device is completed only by inserting the pre-assembled injection device into the steel pipe at the site and connecting with each pump. It is to provide an effect that can be achieved quickly and easily.

1 is a schematic cross-sectional view showing a grouting device for reinforcing steel pipes according to a first preferred embodiment of the present invention.
2A, 2B, and 2C are cross-sectional views taken along lines AA, BB and CC in FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

1 of the accompanying drawings is a schematic cross-sectional view showing a grouting device for reinforcing steel pipes according to a first preferred embodiment of the present invention, and FIGS. 2A, 2B, and 2C are cross-sectional views taken along line A-A, B-B, C-C of FIG. 1.

As shown in the accompanying drawings, the grouting simultaneous injection device for reinforcing steel pipes according to the first preferred embodiment of the present invention is a perforated installation of steel pipes in the form of an umbrella (Umbrella) on a predetermined cross-section forward in the excavation direction when excavating a slope or a tunnel. It is mainly used when the grout is pressure-injected inside the steel pipe to integrate the steel pipe and the surrounding ground through curing of the grout.

Such a steel pipe reinforcement grout simultaneous injection device is a plurality of pairs of packer retaining rings 50 disposed inside the steel pipe 20, and a packer 60 disposed between each packer retaining ring 50, and a packer 60 ) Is made of a grout injection tube 30 for injecting a grout material into a spacer 22 partitioned by each packer 60 and a packer expansion injection tube 40 for expanding.

This will be described in more detail as follows.

The steel pipe 20 installed inside the excavation hole 10 drilled in the ground has a plurality of ejection holes 24. Each ejection hole 24 is intended to allow the grout material to be injected and flow out between the steel pipe 20 and the excavation hole 10. At this time, an air discharge pipe (not shown) may be disposed between the excavation hole 10 and the steel pipe 20 to facilitate injection of grout material, and caulking the space entrance between the excavation hole 10 and the steel pipe 20 To be closed. This is to prevent the grout leaked between the steel pipe 20 and the excavation hole 10 from flowing out of the excavation hole 10.

The packer retaining ring 50 is installed to maintain a gap in the interior of the steel pipe 20 to form spaces 22 that are separated from each other inside the steel pipe 20. The packer retaining ring 50 is made of a rubber-like disc shape, and a through hole through which the packer expansion injection pipe 40 passes and a through hole through which the grout injection pipe 30 passes are formed, and two pairs are formed. Achieve.

The packer 60 is installed between each packer retaining ring 50 and expanded by a grout material injected through the packer expansion injection pipe 40 to block each space portion 22 while being in close contact with the inner wall of the steel pipe 20 It is made of synthetic fiber or rubber material with puffed structure.

The packer expansion injection tube 40 has a structure in which a plurality of expansion injection holes 42 are formed, and each packer fixing ring 50 and the packer 60 penetrate through each packer fixing ring 50 and the packer ( 60), each of the expansion injection holes 42 are coupled to be located in each packer (60).

The grout injection pipe 30 is for injecting grout into each space portion 22 divided by each packer 60, and a plurality of injection jet holes 32 in an area where each packer 60 is not located Are formed. The grout injection pipe 30 is coupled through each packer retaining ring 50 and the packer 60, so that the injection holes 32 for each injection are located between each packer 60, that is, each space portion Each of the packer retaining rings 50 and packers 60 are coupled to be positioned at 22.

The grout injection pipe 30 may be composed of one or more numbers as necessary. In this embodiment, it will be described based on the two grout injection pipe 30 is installed.

Meanwhile, the mixing/injection device for injecting and grouting the grout injection pipe 30 and the packer expansion injection pipe 40 is a grout connected to a water tank, a cement mixer, and a mixer, respectively, as shown in FIG. 1. It consists of an infusion pump and a packer expansion pump, an automatic recorder, a connecting hose connecting each pump and packer expansion infusion pipe and a grout injection pipe, and an overflow hose connecting each hose and a mixer.

If the method for co-injecting grout using the grouting co-injection device for reinforcing steel pipes according to the present invention configured as described above is as follows.

First, a grouting simultaneous injection device is manufactured in a separate place from the construction site where the excavation hole 10 is formed, for example, a manufacturing plant.

That is, several pairs of packer retaining rings 50 and packers 60 arranged to partition the interior of the steel pipe 20 into a plurality of spaces are disposed at predetermined intervals, and the injector 40 for expanding the packer is injected for expansion. The balls 42 are coupled to the packer retaining ring 50 and the packer 60 so that they are located inside each packer 60. That is, the packer expansion injection pipe 40 is fitted into the through holes formed in the packer fixing ring 50 and the packer 60, and the expansion injection holes 42 are located in the inner region of each packer 60. In order to combine the packer expansion inlet pipe 40 and the packer retaining ring 50 and the packer 60 to do so.

Subsequently, the grout injection pipe 30 and each of the ejection holes 32 for injection are located in each space portion 22, and the end portion is located in each spacer 22 so as to be located in the space portion 22 inside the steel pipe 20. Fit through the through hole of the packer retaining ring (50).

In this process, the grouting simultaneous injection device is assembled and completed. This is to manufacture the grout simultaneous injection device in a place other than the construction site and take it to the site to construct it quickly.

Subsequently, an excavation hole 10 is drilled in the ground, and a steel pipe 20 having a blowout hole 24 is inserted into the excavation hole 10 to be installed. And, between the steel pipe 20 and the excavation hole 10 is closed by caulking with a quick cement.

Subsequently, after inserting and installing a pre-made grout simultaneous injection device into the steel pipe 20, the inlet of the steel pipe 20 is fastened by caulking the cement and closed.

In this process, the grout simultaneous injection device consisting of the packer retaining ring 50, the packer 60, and the grout injection tube 30 and the packer expansion injection tube 40 is easily and quickly installed on the steel pipe 20. Can be.

In this process, the packer 60, the ejection hole 32 for injection is located in each space portion 22 to distinguish each space portion 22, and the expansion injection hole 42 is also provided for each packer 60 Will be located within.

Subsequently, the pump for expanding the packer is connected to the infusion tube 40 for expanding the packer, and the pump for injecting grout is connected to the grout injection tube 30.

Then, the pump for expanding the packer is operated to allow the grout material to be injected into each packer 60 through the respective injection holes 42 to expand the packer 60. When the packer 60 is expanded, it is in close contact with the inner circumferential surface of the steel pipe 20, thereby blocking each space 22.

In this case, the packer 60 is sequentially expanded in the packer expansion injection pipe 40 since the expansion injection holes 42 are sequentially formed from the outside of the steel pipe 20 to the inside.

Subsequently, when each space portion 22 is blocked by the expansion of each packer 60, the grout material injection pump is operated to operate the grout material into the injection hole 32 for each injection and the grout injection pipe located in the inner space portion 22. It is to be injected into each space 22 through the end of (30).

At this time, since the injection ejection holes 32 are sequentially formed from the outer side to the inner side of the steel pipe 20, the grout material is sequentially filled from the space portion 22 located outside the steel pipe 20.

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In the foregoing, although specific embodiments of the present invention have been described and illustrated, the present invention is not limited to the described embodiments, and it is common knowledge in the field of this technology that various modifications and modifications can be made without departing from the spirit and scope of the present invention. It is obvious to those who have it. Therefore, such modifications or variations should not be individually understood from the technical spirit or viewpoint of the present invention, and the modified embodiments should belong to the claims of the present invention.

10: excavation hole 20: steel pipe
22: space part 24: blowout hole
30: grout injection tube 32: injection jet hole
40: Packer expansion injection tube 42: Expansion injection hole
50: Packer fixing ring 60: Packer

Claims (4)

delete delete Having a plurality of ejection holes to divide the interior of the steel pipe installed in the excavation into a number of spaces, and then injecting grout into each space to reinforce the steel pipe,
A plurality of pair of packer fixing rings which are installed to maintain a gap inside the steel pipe to form spaces separated from each other;
Packers installed between each of the packer fixing ring;
It is connected to a pump for expanding the packer, and is installed through the packer fixing ring and the packers, and in each region where each packer is located, a perforated packer expansion injector tube having expansion holes formed therein; And
It is connected to the grouting material injection pump, and is installed through the packer fixing ring and the packer so that the end portion is located in the inner last space portion of the steel pipe, and a plurality of injection jet holes are formed in the region located in each space portion. A method for simultaneously injecting a grout into a steel pipe using a simultaneous grouting device for reinforcing a steel pipe including one or more grout injection pipes,
a) a plurality of pairs of packer fixing rings and packers which divide the inside of the steel pipe into a plurality of spaced portions are arranged at predetermined intervals, and the packer extension injection pipes are fixed to the packer expansion rings such that the expansion injection holes are located in each packer. And through the packers, the grout injection tube is coupled to each packer retaining ring and the packer, and each injection jet hole is located in each space portion and the end portion is fixed to each packer and packer to be located in the space portion inside the steel pipe. Constructing a grout simultaneous injection device by penetrating the ring;
b) drilling an excavation hole in the ground;
c) disposing a steel pipe having a blowout hole in the excavation hole, and caulking between the steel pipe and the excavation hole;
d) after inserting and installing the grout simultaneous injection device prepared in step a) into the steel pipe, caulking the inlet of the steel pipe;
e) connecting the pump for expanding the packer to the injection tube for expanding the packer, and connecting the pump for grouting material to the grout injection tube;
f) operating the pump for expanding the packer so that grout material is injected into each packer through each of the expansion injection holes to expand the packer to block each space portion; And
g) When each space portion is blocked by the expansion of the respective packers by the step f), the pump for filling the grout material is operated so that the grout material is injected into each space portion through the injection hole and the end portion for filling. Characterized in that comprises,
Simultaneous injection of grout for steel pipe reinforcement.


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