KR101270557B1 - Double valve system for installing borehole seismometer and borehole grouting installation method using thereof - Google Patents

Abstract

PURPOSE: A double valve system for installing a borehole seismometer and a borehole grouting method using the same are provided to overcome the inefficiencies of a grouting work by continuously sealing a borehole without repeating the opening and closing of a borehole entrance. CONSTITUTION: A double valve system(30) for installing a borehole seismometer comprises a main body(31), a primary inserting valve(32), an injecting plug(33), a fixing unit(34), a secondary injecting valve(35), and a manometer(36). The secondary injecting valve is joined to the top end of the main body in order to supply pressure for inserting the injecting plug. The fixing unit is installed in the main body in order to control the insertion of the injecting plug. A grouting material is injected through the primary injecting valve in the closed state of the fixing unit. The injecting plug is inserted and grouting is performed by opening the fixing unit and applying the pressure through the secondary injecting valve after the injection of the grouting material.

Description

Double valve system for installing borehole seismometer and borehole grouting installation method using Technical

The present invention relates to a grouting device for installing a borehole seismograph, and more particularly, the operation of sealing the borehole and injecting grout material during grouting for installing a borehole-type seismic sensor to be installed on the ground of the underground; And a double valve system for installing a borehole seismograph, which is configured to lower the injection plug to push the injected grout material continuously by a single device.

The present invention also relates to a borehole grouting construction method for installing a seismometer in a borehole using a double valve system for installing a borehole seismometer as described above.

In the past, Korea has been classified as an area that is safe from earthquakes because of the fact that large-scale earthquakes rarely occurred.

However, in Japan adjacent to Korea, very large earthquakes occur relatively frequently, and in recent years, large earthquakes around the world frequently occur, and the frequency of the earthquakes is also increasing.

Moreover, according to this trend, many earthquakes occur around the Korean Peninsula, and although relatively small, recent earthquakes have occurred frequently in Korea, and the recognition that Korea is no longer a safe zone for earthquakes is increasing.

Therefore, in order to prevent and minimize the damage of the earthquake, it is very important to predict the occurrence of the earthquake in advance and to thoroughly prepare for it.

Here, it is very difficult to identify the time of occurrence of the earthquake, but by analyzing the signal characteristics of the earthquake, it is possible to minimize the damage if the impact range of the earthquake can be predicted and prepared in advance.

In addition, for this purpose, the construction of a national earthquake observation network is a priority, and at this time, it is very important to correctly install various sensors such as an earthquake detection sensor installed on the surface and an earthquake meter installed on the ground to monitor the earthquake.

More specifically, the seismic sensor used in the ground of the ground, in general, the borehole type sensor is mainly used, it is most preferable to install such a seismic sensor on the fresh rock.

However, Korea's topography, due to its nature, has many mountainous topography, complex geology, and various variables occur in the installation and operation of seismograph due to groundwater inflow due to faults, crushing zones, ground cracks, etc.

Therefore, in order to solve this problem, it is desirable to install the seismograph by refining the ground to improve the ground in the region to be suitable for the installation of the seismograph, and the most widely used ground improvement method is the grouting method. .

In other words, the grouting method is used to inject and grout grout liquid, which is a mixture of cement, aggregate, bentonite, and water, into a void, such as a crack in a rock, to increase rock solidity and to improve the mechanical properties and permeability of the rock. It is a construction method.

More specifically, referring to FIG. 1, FIG. 1 schematically illustrates a construction method of the prior art for installing a borehole type seismometer using a grouting method.

As shown in Figure 1, the prior art construction method for installing a borehole type seismometer using a grouting method, first, to form a borehole to a certain depth on the ground, and to prevent the collapse of the bore wall when drilling the borehole After installing the outer casing 11 in the form of a double pipe, the inner casing 12 having a smaller diameter is installed in the outer casing 11 and the grouting device 13 is installed on the bottom of the inner casing 12. Then, when concrete is injected into the interior of the inner casing 12 from the ground and pressurized, the space between the outside of the inner casing 12 and the borehole is filled with concrete through the grouting device 13 from the bottom of the borehole to the ground. After that, by installing the seismometer 14 in the lower part of the inner casing 12 and connecting the signal line 15, the seismograph 14 can be stably installed in the ground.

Here, as shown in FIG. 1, the outer casing 11 is formed of a double cylindrical outer casing 11 by installing, for example, a 7-inch pipe 17 in an 8-inch pipe 16. Can be.

In addition, the inner casing 12 can be configured, for example, by installing a 5-inch pipe in the 7-inch pipe 17, so that the conventional construction method, through this structure, by utilizing the grouting method And to form a 1 inch thick cylindrical stiffener column.

In addition, in the grouting process for sealing the borehole, the grout material injected directly from the surface of the grout can not effectively proceed to the grout construction by groundwater or acupressure, and as shown in FIG. The way to proceed is used a lot.

Therefore, for this purpose, a separate device for grouting is required under the borehole, such as the grouting device 13 described above. That is, the grouting device 13 is for preventing backflow so that the grout material injected from the surface is not flowed back by the ground pressure. It is preferable to include a valve.

Here, as an example of the grouting apparatus 13 described above, for example, it may be configured using Seal Float Shoes and Collars (hereinafter, 'Halliburton equipment') of HALLIBURTON.

Referring to FIG. 2, FIG. 2 is a diagram schematically showing the overall configuration of a conventional grouting device 20 used as a grouting device in a conventional construction method for installing a borehole type seismometer using a grouting method.

More specifically, as shown in Fig. 2, the conventional grouting device 20, that is, Halliburton equipment, is divided roughly, the injection plug 21 for injecting grout material and the effect of the injected grout material by acupressure In order to prevent the phenomenon to flow back to the upper packer 22 and the lower packer 23 each comprising a check valve for preventing the flow, and the coupling plug 24 for fixing the injection plug 21 is made, The hydraulic pressure for determining the valve is characterized in that the upper and lower parts are configured with the same specifications.

More specifically, the grouting construction method using the grouting device 20, such as the conventional Halliburton equipment, first connects the grouting device 20 to the casing and lowered to the drilling end depth to be located in the bottom, and then grout on the surface Inject ash.

Subsequently, the injected grout material is pushed down by lowering the injection plug 21 to the binding plug 24 at the upper end of the grouting device 20 by water pressure or the like, whereby the grout material reaches the grouting device 20 so as to become the upper packer. By sequentially passing the non-return valve in the 22 and the non-return valve in the lower packer 23, the borehole is filled in the form of a cylindrical column from the bottom to the ground by continuous injection pressure.

Here, in order to install an earthquake sensor in the ground using the grouting device 20 as described above, as shown in FIG. 1, after drilling the borehole and inserting the casing to install the grouting device, the index for the injection of grout material Sealing the borehole inlet and injecting grout material, and after the injection of the grout material, inserts the injection plug 21 by opening the borehole inlet, and then again seals the borehole inlet and injects plug 21 using air pressure or water pressure. To each of the steps to push up to the binding plug 24 of the top of the grouting device (20).

That is, in the conventional grouting method, as described above, the borehole is sealed for injection of the grout material, and after completion of the injection, the borehole inlet is opened, the injection plug is inserted, the borehole inlet is sealed again, and the injection plug is lowered by hydraulic pressure. Because of the configuration, since the two borehole opening and closing process must be repeated in the grouting process, each work step cannot be continued continuously, resulting in inefficient work efficiency.

In addition, the conventional construction method, a time difference occurs due to the repetition of the borehole opening and closing process as described above, the injected grout material is agglomerated in the casing and requires more pressure in the process of inserting the injection plug, In addition, there was also a problem that problems such as cracking or breakage of the casing connection portion may occur due to such high pressure.

Therefore, in order to solve the problems of the conventional grouting construction method as described above and maximize the work efficiency, it is not necessary to repeat the opening and closing of the borehole inlet so as to simplify the two borehole inlet sealing operations as described above. It would be desirable to provide a system for the installation of new borehole seismometers that enables both injection of grout material and insertion of injection plugs by a single device and methods of borehole grouting using such systems, but which still meets all such needs. No device or method is provided.

The present invention is to solve the problems of the prior art as described above, therefore, an object of the present invention is to seal the borehole for injection of the grout material and then open the borehole inlet after the completion of the injection and insert the injection plug to open the borehole inlet. In order to solve the problem of the conventional borehole grouting construction method, which has a problem of inefficient working efficiency due to the sealing structure again, injection of grout material and insertion of injection plugs are performed by a single device without having to repeatedly open and close the borehole inlet. It is to provide a double valve system and a borehole grouting construction method using the same for installing a borehole seismograph that is configured to perform all.

In addition, another object of the present invention includes two pressure inlets, an injection plug installation space, and an injection plug fixing valve, so that the grout material is injected and the injection plug is inserted by a single device without having to repeatedly open and close the borehole inlet. It is to provide a double valve system for installing a borehole seismograph and a borehole grouting construction method using the same.

In order to achieve the object as described above, according to the present invention, the injection of the grout material and the insertion of the injection plug can be continuously performed by a single device without having to repeat opening and closing of the borehole inlet, thereby simplifying the overall construction process. A double valve system for installing a borehole seismograph configured to be provided, comprising: a body formed in a cylindrical pipe shape and installed at a borehole inlet; A primary injection valve installed at a side of the main body for injection of grout material during grouting operations; An injection plug inserted into an upper end of the main body to push out the grout material after completing injection of the grout material through the primary injection valve; Fixing means mounted to the main body to control the insertion of the injection plug; A secondary injection valve coupled to an upper end of the body to supply pressure for insertion of the injection plug; And it provides a double valve system for installing a borehole seismograph, characterized in that it comprises a pressure gauge installed on top of the secondary injection valve.

Here, the main body is characterized in that it further comprises a circular coupling portion extending in the circumferential direction to the upper end formed with a plurality of through holes at a predetermined interval.

The secondary injection valve may further include a connection part formed in a circular shape at a lower end of the secondary injection valve, including a plurality of through holes so as to correspond to the diameter of the coupling part and the through holes formed at predetermined intervals. It is characterized by.

In addition, the double valve system, after inserting the injection plug into the main body and positioned the secondary injection valve to the upper end of the main body, through the threaded connection using the respective through hole of the coupling portion and the connection portion By combining the secondary injection valve and the main body, it is configured to seal the inlet of the borehole by being installed in the borehole inlet in a state in which the main body and the secondary injection valve is coupled.

Further, the fixing means, the opening and closing handle is formed on one side for opening and closing of the fixing means; And an opening and closing portion extending in the opening and closing handle and formed in the shape of a rod crossing the inside of the main body, and the inside of the main body is blocked by the opening and closing portion by pushing and pulling the fixing means using the opening and closing handle. Or by being opened, characterized in that configured to serve as a valve to control the injection plug is lowered inside the body.

In addition, the double valve system excavates a borehole, installs an outer casing, installs an inner casing and grouting device in the outer casing, and installs the double valve system at the borehole inlet, thereby closing the fixing means. Injecting the grout material through the primary injection valve in the state that the drop of the injection plug is blocked to perform a grouting operation, and when the grouting operation is completed, the fixing means in the open position of the injection plug By lowering the injection plug by applying pressure through the secondary injection valve in a state that can be lowered, it is configured so that the borehole sealing operation can be continuously performed after the grouting operation without the need for opening and closing the borehole do.

In addition, the double valve system, characterized in that configured to be able to adjust the appropriate pressure by using a pressure gauge provided on the upper portion of the secondary injection valve when lowering the injection plug through the secondary injection valve.

Furthermore, according to the present invention, a borehole grouting construction method using a double valve system for installing a borehole seismometer described above, the method comprising: drilling a borehole; Installing an outer casing in the drilled borehole; Installing an inner casing and grouting device in the outer casing; Installing the double valve system at the inlet of the borehole after the installation of the grouting device is completed; Injecting grout material through the primary injection valve of the double valve system while the fixing means of the double valve system is closed; Performing grouting by inserting an injection plug by opening the fixing means of the double valve system and applying pressure through the secondary injection valve of the double valve system after the injection of the grout material is completed; And installing a seismograph in the inner casing and performing a finishing operation after the curing and drying operations are completed after the insertion of the injection plug is completed.

As described above, according to the present invention, a double-valve system for installing a borehole seismometer configured to be capable of performing both the injection of the grout material and the insertion of the injection plug by a single device without repeating opening and closing of the borehole inlet and using the same Since the borehole grouting method is provided, the borehole is sealed for injection of grout material, and after completion of injection, the borehole inlet is again opened, the injection plug is inserted, and the borehole inlet is sealed again to lower the injection plug by water pressure. Due to inefficient working efficiency and repetition of the borehole opening and closing process, time difference occurs and the injected grout material is agglomerated in the casing, which requires more pressure in inserting the injection plug. Cracks in the area I can solve all the problems of the conventional borehole grouting construction method had a problem that can cause problems such as breakage.

In addition, according to the present invention, by including the two pressure inlet, the injection plug installation space and the injection plug fixing valve as described above, the injection and grout of the grout material by a single device without having to repeat the opening and closing of the borehole inlet It is possible to provide a double valve system for installing a borehole seismometer and a borehole grouting construction method using the same.

1 is a view schematically showing a conventional construction method for installing a borehole type seismometer using a grouting method.
2 is a view schematically showing the overall configuration of a conventional grouting device in a conventional construction method for installing a borehole type seismometer using a grouting method.
3 is a view schematically showing the overall configuration of a double valve system for installing a borehole seismograph according to the present invention.
FIG. 4 is a view schematically showing a state in which the coupling between the main body and the secondary injection valve is completed in the double valve system for installing a borehole seismograph according to the embodiment of the present invention shown in FIG. 3.
FIG. 5 is a view schematically showing a state in which a fixing means is released to insert an injection plug in a double valve system for installing a borehole seismograph according to the embodiment of the present invention shown in FIG. 4.
FIG. 6 is a flowchart schematically illustrating the overall configuration of a borehole grouting construction method using a double valve system for installing a borehole seismometer according to an embodiment of the present invention shown in FIG. 3.

Hereinafter, with reference to the accompanying drawings, it will be described a specific embodiment of the double valve system and borehole grouting construction method using the borehole seismograph according to the present invention.

Hereinafter, it is to be noted that the following description is only an embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

In the following description of the embodiments of the present invention, parts that are the same as or similar to those of the prior art, or which can be easily understood and practiced by a person skilled in the art, It is important to bear in mind that we omit.

That is, according to the present invention, the borehole is closed for the injection of grout material, and after the completion of the injection, the borehole inlet is opened again, and after the injection plug is inserted, the borehole inlet is sealed again to lower the injection plug by water pressure. In addition to the inefficient working efficiency, the time difference occurs due to the repetition of the borehole opening and closing process, and the injected grout material is agglomerated in the casing, requiring more pressure in the process of inserting the injection plug. In order to solve the problems of the conventional borehole grouting construction method, which may cause problems such as cracking or breakage of the casing joints, the grout material may be injected by a single device without having to repeatedly open and close the borehole inlet. Both insertion of the injection plug can be performed To a double valve system for borehole seismic installation consisting of and to a borehole grouting construction method using the same.

In addition, the present invention includes two pressure injection ports, an injection plug installation space, and an injection plug fixing valve, so that injection and injection plugs of grout material can be provided by a single device without having to repeatedly open and close the borehole inlet. The present invention relates to a double valve system for installing a borehole seismometer and a borehole grouting construction method using the same.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the double valve system and borehole grouting construction method using the borehole seismograph according to the present invention as described above.

First, referring to FIG. 3, FIG. 3 is a view schematically showing the overall configuration of a double valve system 30 for installing a borehole seismograph according to an embodiment of the present invention.

As shown in FIG. 3, the double valve system 30 for installing a borehole seismograph according to an embodiment of the present invention includes a main body 31 formed in a hollow cylindrical pipe shape and installed at a borehole inlet, and grouting work. The primary injection valve 32 installed on the side of the main body 31 for the injection of the grout material and the main body for sealing the borehole after completing the injection of the grout material through the primary injection valve 32 The injection plug 33 inserted from the upper end of the 31, the fixing means 34 installed on the main body 31 to control the insertion of the injection plug 33, and the insertion of the injection plug 33. The secondary injection valve 35 is coupled to the upper end of the main body 31 to supply pressure for the pressure gauge 36 is installed on the upper portion of the secondary injection valve 35 is configured.

Here, as shown in FIG. 3, the upper end of the main body 31 is formed with a circular engaging portion 37 extending in the circumferential direction and having a plurality of through holes formed at regular intervals.

In addition, the lower end portion of the secondary injection valve 35 is formed with a circular connection portion 38 having a plurality of through holes formed so as to correspond to the diameters of the coupling portion 37 and the through holes formed at predetermined intervals.

Therefore, through the configuration of the coupling portion 37 and the connecting portion 38, the injection plug 33 is inserted into the main body 31 and the secondary injection valve 35 is positioned at the upper end of the main body 31, respectively, By coupling the secondary injection valve 35 and the main body 31 to the through hole of the through hole, the inlet of the borehole can be easily closed.

That is, referring to Figure 4, Figure 4 is the coupling of the main body 31 and the secondary injection valve 36 is completed in the double valve system 30 for installing a borehole seismometer according to the embodiment of the present invention shown in FIG. It is a figure which shows a state schematically.

That is, in the double valve system 30 for installing a borehole seismometer according to an embodiment of the present invention, as shown in FIG. 4, after the injection plug 33 is inserted into the main body 31, the main body 31 and the secondary valve are installed. The injection valve 36 is installed at the borehole inlet in a coupled state.

Here, the double valve system 30 for installing a borehole seismograph according to an embodiment of the present invention prevents the injection plug 33 from descending until the grout material is injected by the fixing means 34.

More specifically, referring to FIG. 5, FIG. 5 is a fastening means 34 for inserting an injection plug 33 in a double valve system 30 for installing a borehole seismograph according to an embodiment of the invention shown in FIG. 4. ) Is a view schematically showing a released state.

That is, as shown in FIG. 5, the fixing means 34 extends to the opening / closing handle 51 and the opening / closing handle 51 for pushing and pulling the fixing means 34 on one side thereof to cross the inside of the main body. It is configured to include an opening and closing portion 52 formed in the shape of a rod, it is configured to serve as a kind of valve to control the injection plug 33 is lowered in the main body 31.

Therefore, as shown in FIGS. 4 and 5, the main body 31 is opened and closed by the opening and closing portion 52 by pushing and pulling the fixing means 34 using the opening / closing handle 51. By blocking or opening, the lowering of the injection plug 33 can be easily controlled.

In addition, by implementing a double-valve system 30 for installing a borehole seismometer according to an embodiment of the present invention as described above, after drilling the borehole to install the casing and install the grouting device and seismic sensor in the casing, By installing a double valve system 30 for installing a borehole seismometer according to an embodiment of the present invention configured as described above at a borehole inlet, grouting operation and borehole sealing operation may be continuously performed by a single device.

More specifically, as described above, after installing the double valve system 30 for installing the borehole seismometer according to the embodiment of the present invention at the borehole inlet, as shown in FIG. 4, the fixing means 34 is pushed. Injecting grout material through the primary injection valve 32 in the state where the drop of the injection plug 33 is blocked, and grouting is performed, and when the grouting operation is completed, as shown in FIG. By lowering the injection plug 33 by the hydraulic pressure through the secondary injection valve 35 while pulling down the injection plug 33, the grouting operation is performed after the grouting operation without the need for opening and closing of the borehole. Can be completed continuously, simplifying the overall construction process.

Here, the double valve system 30 for installing a borehole seismograph according to an embodiment of the present invention, when the injection plug 33 is lowered by water pressure or the like through the secondary injection valve 35, the secondary injection valve 35. It is configured to easily adjust the appropriate pressure through the pressure gauge 36 installed on the top of the).

Therefore, as described above, it is possible to implement a double valve system for installing a borehole seismograph according to the present invention.

Next, the borehole grouting construction method for installing the seismometer in the borehole using the double valve system for installing the borehole seismometer according to the present invention as described above will be described.

That is, referring to FIG. 6, FIG. 6 is a flowchart schematically illustrating the overall configuration of a borehole grouting construction method using a double valve system for installing a borehole seismometer according to an embodiment of the present invention shown in FIG. 3.

More specifically, as shown in Figure 6, the borehole grouting construction method using a double valve system for installing a borehole seismograph according to an embodiment of the present invention, first, excavating the borehole (step S61), and excavated In the present invention configured as described above in the step of installing the outer casing in the borehole (step S62), the step of installing the inner casing and grouting device in the outer casing (step S63), and the borehole inlet after the installation of the grouting device is completed Installing the double valve system according to the step (step S64), the step of injecting grout material through the primary injection valve of the double valve system in a state in which the fixing means of the double valve system (step S5), and the injection of grout material After this is completed, open the fixing means of the double valve system and apply pressure through the secondary injection valve of the double valve system. And inserting a grouting operation (step S66) and performing the curing and drying operation after the insertion of the injection plug is completed, and installing a seismograph in the inner casing and performing a finishing operation (step S67). .

As described above, according to the borehole grouting construction method of the present invention, by using a double valve system configured to perform both the injection of the grout material and the insertion of the injection plug without repeating the opening and closing operation of the borehole, the overall construction process It can be simplified.

Therefore, as described above, it is possible to implement a double valve system for installing a borehole seismograph according to the present invention and a borehole grouting construction method using the same.

In addition, according to the present invention, as described above, the injection of grout material by a single device without the need to repeat the opening and closing operations of the borehole, including the two pressure inlet, the sealing plug installation space for the borehole closure and the plug fixing valve By providing a double valve system for installing a borehole seismograph and a method for grouting the borehole using the same, the borehole is sealed for injection of grout material, and the borehole inlet is opened again after the injection is completed. After inserting the hole, the borehole inlet is again sealed and the injection plug is lowered by water pressure, which is not only inefficient, but also caused by the time difference caused by the repetition of the borehole opening and closing process. Insert plug In the process, more pressure is required, and these high pressures can solve all of the problems of the conventional borehole grouting construction method, which may cause problems such as cracking or breakage of the casing connection portion.

As described above, the details of the double valve system and the borehole grouting construction method using the same for installing the borehole seismometer according to the present invention have been described through the embodiments of the present invention as described above. Therefore, the present invention is not limited to the present invention, and various modifications, changes, combinations, and substitutions may be made by those skilled in the art according to design needs and various other factors. It is natural.

11. Outer casing 12. Inner casing
13. Grouting Device 14. Seismograph
15. Signal line 16. 8 inch pipe
17. 7 inch pipe 20. Grouting device
21. Injection plug 22. Upper packer
23. Lower packer 24. Tie plug
30. Double valve system 31. Main body
32. Primary injection valve 33. Injection plug
34. Fastening means 35. Secondary injection valve
36. Pressure gauge 37. Coupling
38. Connection part 51. Opening and closing handle
52. Opening and closing part

Claims (8)

In the double-valve system for installing a borehole seismograph, which is configured to simplify the overall construction process by injecting grout material and inserting an injection plug by a single device without having to repeatedly open and close the borehole inlet. ,
A main body formed in a cylindrical pipe shape and installed at a borehole inlet;
A primary injection valve installed at a side of the main body for injection of grout material during grouting operations;
An injection plug inserted into an upper end of the main body to push out the grout material after completing injection of the grout material through the primary injection valve;
Fixing means mounted to the main body to control the insertion of the injection plug;
A secondary injection valve coupled to an upper end of the body to supply pressure for insertion of the injection plug; And
It includes a pressure gauge installed on the upper portion of the secondary injection valve,
Wherein,
Opening and closing handle is formed on one side for opening and closing of the fixing means; And
It includes an opening and closing portion extending in the opening and closing handle is formed in the shape of a rod crossing the inside of the main body,
It is configured to serve as a valve to control the injection plug is lowered inside the main body by the interior of the main body is blocked or opened by the opening and closing portion by pushing and pulling the fixing means using the opening and closing handle. Double valve system for installing borehole seismographs.
The method of claim 1,
The main body includes:
A double valve system for installing a borehole seismograph, characterized in that it further comprises a circular coupling portion formed in a plurality of through holes extending in the circumferential direction at the upper end.
The method of claim 2,
The secondary injection valve,
Double for the installation of a borehole seismograph further comprises a connecting portion formed in a circular shape at the lower end of the secondary injection valve including a plurality of through holes to correspond to the diameter of the coupling portion and the through holes formed at predetermined intervals. Valve system.
The method of claim 3, wherein
The double valve system,
The injection plug is inserted into the main body, and the secondary injection valve is positioned at the upper end of the main body, and then the secondary injection valve and the main body are screwed by using the through holes of the coupling part and the connection part. The double valve system for installing a borehole seismograph, characterized in that configured to seal the inlet of the borehole by being installed at the inlet of the borehole in combination with the main body and the secondary injection valve.
delete delete The method of claim 1,
The double valve system,
When the injection plug is lowered through the secondary injection valve, a double valve system for installing a borehole seismograph, characterized in that configured to be able to adjust the appropriate pressure by using a pressure gauge installed on the upper portion of the secondary injection valve.
In the borehole grouting construction method using a double valve system for installing the borehole seismometer according to any one of claims 1 to 4,
Digging a borehole;
Installing an outer casing in the drilled borehole;
Installing an inner casing and grouting device in the outer casing;
Installing the double valve system at the inlet of the borehole after the installation of the grouting device is completed;
Injecting grout material through the primary injection valve of the double valve system while the fixing means of the double valve system is closed;
Performing grouting by inserting an injection plug by opening the fixing means of the double valve system and applying pressure through the secondary injection valve of the double valve system after the injection of the grout material is completed; And
And performing a curing and drying operation after the insertion of the injection plug is completed, installing a seismometer in the inner casing and performing a finishing operation.

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