KR100885302B1 - Developing method the developing of underground water well - Google Patents

Abstract

The present invention relates to a groundwater well development construction method.

Groundwater well development construction method of the present invention, after connecting the screw to the landing gear body to rotate the screw to excavate to the lower first primary drilling step; In the first foundation excavation step, install the mud casing in the hole excavated, install the rod in the body of the gearbox, install the air hammer and the bit in the lower part of the rod, excavate the soft rock layer, and use the air compressor to sludge outward. Blowing up the second excavation step; After the 2nd excavation step, the air hammer and the rod equipped with the bit are taken out of the excavated hole, and then the outer casing is provided with a gap retaining member installed on the outer circumferential surface inside the earthen casing so that the excavated hole and the outer casing have a constant gap. Casing installation step; After cubing is installed on the upper part of the air hammer, a hole equipped with an air hammer, cubing, and a bit is connected to the body of the landing machine inside the hole where the outer casing is installed, and the lower part of the hole that is secondly excavated using the air hammer, cubing, and bit. Tertiary excavation step of performing a third excavation furnace; Cleaning the inside of the hole by injecting water and high-pressure air into the hole formed up to the third excavation step, and then cleaning the inside of the hole with the air hammer, cubing, and a rod equipped with a bit; A grouting step of installing a plurality of injection tubes in the grouting space outside the outer casing, injecting milk cement and an impermeable material into the injection tube by mixing them with water at a predetermined ratio, and curing them; It consists of.

According to the present invention, by drilling with a screw during the construction of the well, the flow of the surrounding contaminated upper water and the altered groundwater is perfectly ordered, and the retaining casing and the outer casing space are kept constant, thereby maximizing the grouting effect and contaminated upper water. It is possible to block the groundwater inflow of the deteriorated strata and to prevent the inflow of contaminants into the groundwater.

Groundwater, Wells, Screws, Lots, Cubbing

Description

Developing method the developing of underground water well}

The present invention can excavate the foundation excavation with a screw to excavate as perpendicular to the order wall forming effect to prevent ground subsidence to block the flow of contaminated water and deteriorated groundwater as much as possible and to construct more stably, and the progress speed is fast The present invention relates to a method for the development of groundwater wells that can be easily and economically effective.

In general, it is known that groundwater intake facilities are being developed for the purpose of drinking water, living water, industrial water, agricultural fishery water, and hot spring water.

The groundwater intake facility is usually used to discharge the groundwater inside the groundwater wells to the outside through an underwater motor pump.

In order to use such groundwater, an air hammer wider than the casing is used to excavate the casing to a predetermined depth from the surface of the ground, and to inject milk cement or bentonite to the outside of the casing to order the contaminated upper groundwater.

However, the ground excavation was unstable and unstable due to the foundation drilling with the air hammer, so that the ground subsidence phenomenon or the contaminated water and the groundwater of the altered ground were introduced.

In addition, because the outer casing is not fixed to the center, the outer casing is inclined to one side, so that the inner wall of the well and the casing are biased to one side, which makes it difficult to accurately install the casing.

This prevented the injection of milk cement and bentonite to a certain depth to provide a passage through which the contaminated water and the deteriorated groundwater flowed in quickly, there was a secondary problem affecting the surrounding strata.

The groundwater well development and construction method of the present invention is to solve the problems caused in the prior art as described above, by using a screw for the basic drilling stably to completely flow the surrounding contaminated upper water and the altered groundwater flow It is for.

In addition, by fixing the outer casing in the center of the hole to prevent the inclination of the outer casing to enable accurate construction.

In addition, the injection pipe is installed in the outer space of the outer casing up to the lower end of the hole to inject the grouting liquid to prevent the inflow of the contaminated water and the altered groundwater at the top.

In order to solve the above problems, the groundwater well development construction method of the present invention comprises: a first basic drilling step of connecting the screw to the body of the fixed body and then rotating the screw to excavate to the bottom and then separate the screw; In the first foundation excavation step, install the mud casing in the hole excavated, install the rod in the body of the gearbox, install the air hammer and the bit in the lower part of the rod, excavate the soft rock layer, and use the air compressor to sludge outward. Blowing up the second excavation step; After the second excavation step, the air hammer and the rod equipped with the bit are taken out of the excavated hole, and then the outer casing is provided with a space retaining member installed on the outer circumferential surface inside the earthen casing so that the excavated hole and the outer casing have a constant gap. Casing installation step; After cubing is installed on the upper part of the air hammer, a hole equipped with an air hammer, cubing, and a bit is connected to the body of the landing gear in the hole where the outer casing is installed, and the lower part of the hole that is secondly excavated using the air hammer, cubing, and bit. Tertiary excavation step of performing a third excavation furnace; Cleaning the inside of the hole by injecting water and high-pressure air into the hole formed up to the third excavation step, and then cleaning the inside of the hole with the air hammer, cubing, and a rod equipped with a bit; A grouting step of installing a plurality of injection tubes in the grouting space outside the outer casing, injecting milk cement and an impermeable material into the injection tube by mixing them with water at a predetermined ratio, and curing them; It consists of.

In the present invention, the outer casing during the installation step is characterized in that the cap is installed in the upper portion of the space between the outer casing and the earth casing to block the space between the casing.

In addition, in the outer casing installation step, the gap holding member is installed to protrude so as to have a predetermined angle or distance to the outer diameter of the outer casing so that the outer side of the gap holding member is located on the inner circumferential surface of the earth retaining casing and the base excavation hole so as to be external to the center of the grouting space. It is characterized in that the casing is positioned.

In addition, the cubing is installed on the air hammer in the third excavation step, characterized in that the excavation proceeds vertically.

According to the present invention, it is possible to completely drain the flow of the contaminated upper water and the deteriorated ground water by drilling with a screw during the construction of the well.

In addition, when the outer casing is installed inside the earth retaining casing and the base excavation hole, the space between the earth retaining casing and the basic excavation hole and the outer casing has a certain interval, thereby maximizing the grouting effect, and It can be blocked at source.

In addition, grouting injection pipes are installed in the space between the earthen casing and the basic excavation hole and the outer casing, and the milk cement and impermeable material are mixed with water at a predetermined ratio, and the pressure is injected from the bottom of the outer casing to the upper side of the outer casing with an injection pump. This prevents contaminants from entering the groundwater.

Groundwater well development construction method of the present invention,

Connecting the screw (1) to the body (A) and then rotating the screw (1) to excavate to the bottom and then remove the screw (1); Install the earth retaining casing (11) in the hole excavated in the first basic excavation step, the rod 5 is installed in the body (A), the air hammer 8 and the bit in the lower portion of the rod (5) After the excavation of soft rock layer, the secondary foundation excavation step of raising the sludge to the outside with an air compressor; After the second basic excavation step, the air hammer 8 and the rod 5 equipped with the bit are taken out of the excavated hole, and then the space keeping member 7 is formed on the outer circumferential surface of the earth retaining casing 11 and the basic excavation hole 11a. An outer casing installation step of installing the outer casing 12 in which the drilled hole and the outer casing 12 have a predetermined interval; After the cubing 4 is installed on the upper part of the air hammer 8, the air hammer 8, the cubing 4, and the rod 5 having the bit are mounted inside the hole in which the outer casing 12 is installed. Tertiary excavation step of connecting to (A) and performing tertiary excavation to the bottom of the second excavated hole by using the air hammer (8), cubing (4), and the bit; Cleaning the inside of the hole by injecting water and high pressure air into the hole formed up to the third excavation step, and then cleaning the inside of the hole with the air hammer (8), cubing (4), and the rod (5) equipped with bits from the hole. ; A plurality of injection pipes 3 are installed in the grouting space 9 outside the outer casing 12, and the milk cement and the impermeable material are mixed with water at a predetermined ratio and cured after being injected into the injection pipe 3. Grouting step; It consists of.

Hereinafter, each step of the groundwater well development construction method of the present invention will be described in detail.

1. First Basic Excavation Stage

After connecting the screw (1) to the landing gear body (A) by rotating the screw (1) to the first basic excavation to the bottom to separate the screw (1).

Figure 1 shows an example of a high-performance landing gear applied in the present invention, it can be seen that the screw 1 is connected to the landing gear body (A).

Figure 2 shows a state in which the screw (1) installed in the gearing machine is excavated downward while rotating,

Figure 3 shows a state in which the screw (1) separated from the landing gear body (A) after the end of the excavation.

Looking at Figures 1 to 3, it can be seen that the power box (Aa) is installed in the body of the landing gear (A).

Here, the power box (Aa) is generally acts as a driving device of the mechanical device composed of a motor and gears, etc. In the present invention, the power box (Aa) installed on the body (A) is a rotary and high-pressure air, water It is configured to function as injection.

Since the power box Aa corresponds to a known device, the detailed structure and configuration of the power box Aa will be omitted.

On the other hand, although not shown in the power box (Aa) is installed to be connected to the inclined screw downwards inclined screw to the top of the screw (1), the inclined screw is configured to be connected to the rod (5) to be described later First, the inclined screw and screw (1) is connected to operate the screw (1), after removing the screw (1) is to be able to operate by connecting the rod (5).

That is, in the first basic excavation step, the screw 5 is connected to the inclined screw of the landing gear body A in which the inclined screw is installed downward so that the rod 5 can be connected, and rotates vertically to a constant depth downward. After the first excavation is to proceed to the process of separating the screw (1) in the reverse order connected.

Here, the landing gear and the landing gear body (A), the screw (1) is a variety of devices are disclosed, the configuration for connecting the screw (1) rotatable to the landing gear body (A) is also known because of the detailed drawings and specific The description of the configuration will be omitted.

2. 2nd Basic Excavation Stage

As shown in FIG. 4, the earth block casing 11 is installed in the hole excavated in the first basic excavation step, the rod 5 is installed in the body A of the landing gear body, and the air hammer at the bottom of the rod 5 is installed. After attaching (8) and the bit, excavate the soft rock layer and blow the sludge outwards with air compressor.

Here, the earth retaining casing 11 is preferably sized to be in close contact with the inner circumferential surface of the hole excavated by the screw 1 in the first basic excavation step.

In addition, the rod 5 is connected to the inclined screw of the gear body A, and as shown in the lower part of the rod 5, the air hammer 8 and the bit are mounted to use the air hammer 8 and the bit. As shown in FIG. 5, the basic foundation excavation hole 11a is formed.

It is preferable to use a high pressure air compressor to remove sludge in the hole after the excavation.

3. Outer Casing Installation Step

After completion of the second basic excavation using the air hammer and the bit, the air hammer (8) and the rod (5) equipped with the bit are taken out to the outside of the excavated hole up to the second, and the inside of the earth retaining casing (11) and the basic excavation hole Install the outer casing (12).

FIG. 6 shows the air hammer 8 and the rod 5 having the bit mounted thereon, separated from the power box Aa of the body A of the landing gear body, and the inside of the basic drilling hole excavated to the secondary. It shows a state in which the outer casing 12 is installed.

Here, the outer casing 12 is located at the center of the foundation excavation hole excavated to the second, and the gap retaining member 7 is installed on the outer circumferential surface of the outer casing 12 so that the outer casing 12 is excavated to the second and the second. It can be seen that the inner circumferential surface of the excavation hole or earth retaining casing 11 has a predetermined interval.

Here, the gap holding member 7 is installed to protrude so as to have a predetermined angle or interval on the outer diameter of the outer casing 12 so that the outside of the gap holding member 7 is located on the inner peripheral surface of the earth retaining casing 11 and the basic excavation hole. Preferably, the outer casing 12 is positioned at the center of the grouting space 9.

In the outer casing installation step, as shown in FIG. 7, the cap 10 that blocks the space between the outer casing 12 and the retaining casing 11 has an upper portion of the space between the outer casing 12 and the retaining casing 11. It can also be installed in, which prevents impurities from entering during rock excavation into the space between the soil blocking casing (11) and the outer casing (12).

8 and 9 are views showing the cap 10 in more detail. A locking jaw is installed at the lower portion of the outer circumferential surface so as to be caught by the retaining casing 11, and a handle is installed at the upper portion to facilitate installation and separation. I can see that.

In this way, the space between the retaining casing 11 and the outer casing 12, that is, the grouting space 9, is uniformly provided by using the space maintaining member 7 in the outer casing installation step.

4. 3rd Excavation Stage

After the cubing 4 is installed on the upper part of the air hammer 8, the air hammer 8, the cubing 4, and the rod 5 having the bit are mounted inside the hole in which the outer casing 12 is installed. Connect to (A) and carry out the 3rd excavation to the bottom of the 2nd excavated hole by using the air hammer (8), cubing (4) and the bit, and then load the air hammer (8), cubing (4), and the bit Draw (5) from the hall.

FIG. 10 is a view showing a state in which the third excavation step is performed, in which a rod 5 is connected to the body A of the landing gear by an inclined screw, and an air hammer 8 and a cubing (below) of the rod 5 are shown. 4), the bit is provided, it was shown that the air hammer 8, the cubing 4, the bit excavated the bottom of the hole excavated until the second excavation to form the third excavation hole (12a).

Such a method is a method of directly excavating a well, a method of excavating in the state confirmed the presence of the groundwater source.

By the way, when it is not possible to determine whether there is groundwater in the lower portion, it is preferable to use the method of expanding after digging the irradiation hole.

This is shown in FIGS. 11 and 12.

11, the cubing 4 is installed in the air hammer 8, but the diameter of the cubing 4 is small because the drilling hole is excavated, and the air hammer 8 and the bit are also small in size for digging the irradiation hole. It can be seen that.

At this time, since the diameters of the air hammer 8 and the cubing 4 are small, it is necessary to position the rod 5 at the center.

For this purpose, it can be seen that the center drilling ring 6 is installed between the rod 5 and the outer casing 12.

That is, the rod 5 is connected to the landing gear body A, and the air hammer 8, the cubing 4, the bit are installed in the lower part of the rod 5, and the hole bottom is excavated until the second excavation. It is shown that the air hammer 8, the cubing 4, and the bit irradiate and form the irradiation hole 12b.

On the other hand, the center drilling ring (6) serves to guide the excavation direction to be located in the center of the center when the excavation excavation by placing the position of the rod (5) in the center when the rod (5) moves downward.

13 and 14 show a through hole through which the rod 5 penetrates in the center, as shown in the center drilling ring 6, and on the outer circumferential surface to maintain a constant distance from the inner circumferential surface of the outer casing 12. It can be seen that the wing 6a is formed to protrude.

After irradiating excavation to a certain depth, the excavation hole should be expanded to form the tertiary excavation hole.

To this end, withdraw the rod 5 used for the excavation excavation to remove the small air hammer (8), cubing (4), the bit is separated and sized according to the diameter of the hole to be expanded as shown in FIG. Air hammer (8), cubing (4), and a bit are mounted on the rod (5) and then excavated along the irradiation hole (12b) to expand the irradiation hole (12b) to form the third drilling hole (12a). .

After the excavation, the air hammer 8, the cubing 4, and the rod 5 equipped with the bit may be taken out and separated from the hole.

The reason for installing the cubing 4 in the above configuration is to proceed the excavation vertically, in particular, when the center drilling ring 6 is installed, the center drilling ring 6 is disposed between the outer casing 12 and the rod 5. There is a need to be installed in the center of the hole at the top of the hole during the irradiation excavation step.

For this purpose, a gap is formed between the rod 5 of the upper part of the air hammer 8 and the inner circumferential surface of the hole by installing a cubing 4 having the same or nearly similar diameter as the air hammer 8 in the upper part of the air hammer 8. To prevent them from being drilled and, as far as possible, to dig holes vertically.

Therefore, it is preferable to use the cubing 4 having the same or similar diameter as the air hammer 8 depending on the diameter of the hole to be excavated.

On the other hand, the central drilling ring (6) will be installed even when performing the third excavation by direct excavation method will be able to guide the rod (5).

5. Inside cleaning hall

When the irradiation proceeds to the excavation as described above, water and high pressure air are injected into the hole to clean the inside of the hole.

The inside of the hole can be cleaned in various ways. Among them, the high-pressure water pump (Ab) is attached to the body (A) and the air inlet is installed in the power box (Aa) to combine water and high-pressure air. It is preferable to inject to clean the inside of the hole.

6. Grouting Step

A plurality of injection pipes 3 are installed in the grouting space 9 outside the outer casing 12 as shown in FIG. 15, and the milk cement and the impermeable material are mixed with water at a predetermined ratio in the injection pipe 3. After curing.

FIG. 16 illustrates a state in which a plurality of injection tubes 3 are installed in a space between the outer side of the outer casing 12 and the soil barrier casing 11, that is, the grouting space 9, and the injection tube 3 is disposed outside the casing. It shows what was installed along the perimeter of (12).

FIG. 17 shows a state in which the injection tube 3 and the injection pump 2 are connected, and the milk cement and the water impermeable material are mixed and injected through the injection pump 2.

When the mixed liquid is injected into the injection tube 3 as described above, the mixed liquid is gradually filled from the lower portion of the injection tube 3 into the grouting space 9.

FIG. 18 shows a state in which the grouting 9a is formed after the grouting space 9 is filled with the mixed solution and then taken out of the injection tube 3 and cured.

Here, the separation of the injection tube 3 may be selectively taken.

After the grouting is completed as described above, the inner tube 13 is installed inside the hole, and the bean tube 20 is filled between the inner tube 13 and the outer casing 12, and the well is preferably installed in the well. Do.

By installing the submersible pump 14 in the well prepared in accordance with the above process as shown in Figure 19 is used to pull the groundwater upward through the pump pipe (15).

16 is a Hurenji not shown, 17 is a water level measuring tube, 18 is a power cable, 19 represents a connection socket, which corresponds to the known, so the description of the specific components will be omitted.

The groundwater well development method configured as described above is not only used for the development of silk groundwater, but can also be used when applying various types of holes stably and accurately.

1 is a schematic view showing a state in which a screw is connected to the body of the present invention in the present invention.

Figure 2 is a schematic diagram showing a state in which the first basic drilling by rotating the screw in the present invention.

Figure 3 is a schematic diagram showing a state in which the screw is separated from the body of the gear after the first basic excavation in the present invention.

Figure 4 is a schematic diagram showing a state in which the earth casing is installed in the primary foundation excavated hole in the present invention and the rod, air hammer and bit installed.

Figure 5 is a schematic diagram showing a state of performing a second basic drilling by operating the air hammer and the bit in the present invention.

Figure 6 is a schematic view showing a state in which the outer casing is installed inside the hole after separating the air hammer and the bit from the body of the landing after the second basic drilling in the present invention.

Figure 7 is a schematic diagram showing a state in which a cap is installed on the upper outer casing in the present invention.

8 is a plan view showing a cap in the present invention.

9 is a cross-sectional view showing a cap in the present invention.

Figure 10 is a schematic diagram showing a state of construction by the method of direct excavation in the third excavation step in the present invention.

11 to 12 is a schematic view showing a state in which the construction by a method of expanding after the excavation of the third excavation step in the present invention.

Figure 13 is a plan view showing a center drilling ring in the present invention.

Figure 14 is a cross-sectional view showing a center drilling ring in the present invention.

15 is a schematic view showing a state in which a plurality of injection pipes are installed in the grouting space outside the outer casing after irradiation excavation.

Figure 16 is a schematic diagram showing a state of injecting grout liquid into the injection tube in the present invention.

Figure 17 is a schematic diagram showing the state of the hole after the grouting step in the present invention.

18 is a plan view showing the state of the hole after the grouting step in the present invention.

19 is a sectional view showing a state in which an inner tube and an underwater motor are installed after the groundwater well development in the present invention.

<Detailed Description of Major Symbols in Drawing>

A: A landing gear body Aa: Power box

Ab: High Pressure Water Pump 1: Screw

2: injection pump 3: injection tube

4: cubing 5: rod

6: center drilling ring 6a: wing

7: space keeping member 8: air hammer

9: grouting space 9a: grouting

10 cap 11: earth shield casing

11a: foundation drilling hole 12: outer casing

12a: 3rd drilling hole 12b: irradiation hole

13: inner tube 14: submersible pump

15: Pumping pipe 16: Flange

17 level gauge 18 power cable

19: connecting socket 20: soybeans

Claims (4)

In groundwater well development construction method, Connecting the screw (1) to the body (A) and then rotating the screw (1) to excavate to the bottom and then remove the screw (1); Install the earth block casing (11) in the hole excavated in the primary foundation excavation step, the rod 5 is installed in the body (A) of the landing gear, and the air hammer (8) and the bit in the lower portion of the rod (5) After mounting the excavated soft rock layer, the secondary foundation excavation step of blowing up the sludge with an air compressor outside; After the secondary foundation excavation step, the air hammer 8 and the rod 5 equipped with the bit are taken out of the excavated hole, and then the space keeping member 7 is formed on the outer circumferential surface of the earth retaining casing 11 and the foundation excavation hole 11a. ) To install the outer casing (12) is installed so that the excavated hole and the outer casing (12) at a constant interval, The spacing holding member 7 is installed to protrude so as to have a predetermined angle or spacing at the outer diameter of the outer casing 12 so that the outside of the spacing holding member 7 is located on the inner peripheral surface of the earth retaining casing 11 and the basic drilling hole. An outer casing installation step of placing the outer casing 12 in the center of the space 9; After the cubing 4 is installed on the upper part of the air hammer 8, the air hammer 8, the cubing 4, and the rod 5 having the bit are mounted inside the hole in which the outer casing 12 is installed. Tertiary excavation step of connecting to (A) and performing tertiary excavation to the bottom of the second excavated hole by using the air hammer (8), cubing (4) and the bit; Clean the inside of the hole by injecting water and high-pressure air into the hole formed up to the third excavation step, and then cleaning the inside of the hole withdrawing the air hammer (8), cubing (4), and the rod (5) equipped with bits from the hole. step; A plurality of injection pipes 3 are installed in the grouting space 9 outside the outer casing 12, and the milk cement and the impermeable material are mixed with water at a predetermined ratio and cured after being injected into the injection pipe 3. Grouting step; Including, Groundwater well development The method of claim 1, In the outer casing installation step, characterized in that the cap 10 for blocking the space between the outer casing 12 and the retaining casing 11 is installed in the upper portion of the space between the outer casing 12 and the retaining casing 11, Groundwater well development delete The method of claim 1, The third excavation step is to excavate the irradiation hole using a small diameter of the air hammer (8), cubing (4), a bit and then irradiated using a large diameter of the air hammer (8), cubing (4), bit Characterized in that excavated in a way to expand, Groundwater well development

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