JPH11222841A - Soil improvemet method and soil improvement facilities - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a soil improvement method and soil improvement facilities, by which the stability of a structure can be ensured excellently by conducting improvement within a wide range at a place where soil has been difficult to be improved, such as the lower section of the structure. SOLUTION: A recharge well 13 and a pumping well 14 are installed separately mutually into a ground G, and a hydraulic gradient is generated between the recharge well 13 and the pumping well 14 and a groundwater flow is generated by supplying the recharge well 13 with water while pumping up water from the pumping well 14. The inside of a ground Ga placed between the recharge well 13 and the pumping well 14 is filled with fine substances by the groundwater flow, and the ground Ga is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ground improvement method and a ground improvement facility used for improving the properties of the ground for the purpose of improving the stability of a structure or the like.

[0002]

2. Description of the Related Art As such a ground improvement method and a ground improvement facility, for example, the one shown in FIG. 8 is known. The ground improvement facility 1 shown in FIG. 8 is provided for the purpose of preventing the existing underground structure 2 from rising, and includes a plurality of boring holes 4, 4,... Provided so as to surround the underground structure 2. Is provided. The underground structure 2 is installed in the ground G and has a bottom surface 2a.
Is located in the aquifer 7 below the surface layer 6 in the ground G. In such an underground structure 2, when the level of groundwater in the aquifer 7 rises, the bottom surface 2a
When the buoyancy acting on the surface is increased, there is a possibility that a lift may occur. Therefore, a chemical such as water glass, bentonite, or ultrafine cement is injected under high pressure from the boring holes 4, 4,... In the ground improvement facility 1 toward the ground G, thereby filling gaps in the ground G. Thereby, the water permeability in the ground G is reduced, and the rise of the groundwater level in the aquifer 7 is prevented.

[0003]

However, in the above-described ground improvement method, the ground is improved by injecting a chemical or the like from the boring hole 4, so that as shown in FIGS. Boring holes 4, 4,
The ground improvement could be performed only in a limited region R around. On the other hand, in the underground structure 2, since the buoyancy acts on the entire bottom surface 2a, it is difficult to obtain a sufficient floating prevention effect if only a part of the ground improvement can be performed as described above. there were.

[0004] The present invention has been made in view of the above circumstances, and it is possible to perform a wide range of improvements in places where it has been difficult to improve the ground, such as below a structure, thereby improving the stability of the structure. It is an object of the present invention to provide a ground improvement method and a ground improvement facility capable of ensuring a good condition.

[0005]

Means for Solving the Problems To solve the above problems, the present invention employs the following means. That is,
The ground improvement method according to claim 1, wherein a water injection well and a pumping well are installed separately from each other in the ground, and water is supplied to the water injection well and the water is pumped up from the water pumping well. Generating a groundwater flow by generating a hydrodynamic gradient between the well and the pumping well, and filling the ground located between the injection well and the pumping well with fine substances by the groundwater flow. I do.

[0006] Because of the above-mentioned configuration, in this ground improvement method, the ground in a wide area between the water injection well and the pumping well can be improved by filling the ground with fine materials.

[0007] The ground improvement method according to claim 2 is based on claim 1.
The ground improvement method according to any one of the preceding claims, wherein when supplying water to the water injection well, the fine substance is supplied into the water injection well together with the water.

[0008] Because of the above-mentioned configuration, in this ground improvement method, the amount of the fine substance can be adjusted to an appropriate amount.

[0009] The ground improvement method according to claim 3 is based on claim 1.
The ground improvement method according to the above, wherein dissolved water is used as water to be supplied to the injection well, and the dissolved oxygen water is used to precipitate a dissolved substance in groundwater in the ground, whereby the fine substance is removed. It is characterized by forming.

Due to such a configuration, in this ground improvement method, a substance in groundwater can be used as a filling material for gaps in the ground.

[0011] The ground improvement method according to claim 4 is based on claim 1.
4. The ground improvement method according to any one of items 1 to 3, wherein the water pumped from the pumping well is supplied again to the water injection well.

[0012] With the above construction, it is not necessary to supply water from the outside in this ground improvement method.

According to a fifth aspect of the present invention, there is provided a ground improvement method.
The ground improvement method according to any one of claims 1 to 3, wherein the water pumped from the pumping well is aerated and then supplied to the water injection well.

[0014] Because of the above-described configuration, in this ground improvement method, it is possible to favorably precipitate substances in groundwater.

[0015] The ground improvement method according to claim 6 is based on claim 1.
6. The ground improvement method according to any one of to 5, wherein the water injection well and the pumping well are respectively installed at positions facing each other with an existing structure interposed therebetween, and are located below the existing structure. The method is characterized in that the groundwater flow is generated in the ground.

Due to the above-mentioned structure, the ground improvement method can also improve the ground below the existing structure.

According to a seventh aspect of the present invention, in the ground improvement facility, a water injection well and a pumping well are provided at a distance from each other in the ground, and the water injection well is provided with a water supply for supplying water into the water injection well. Means, and a substance supply means for supplying a fine substance to the water, wherein the pumping well is provided with pumping means for pumping water from the pumping well, and Each of the water injection well and the pumping well is provided with a screen that allows water to permeate between the inside of the water injection well and the pumping well and the ground.

With the above-mentioned structure, in this ground improvement facility, a groundwater flow is generated in the ground located between the pumping well and the injection well, and fine substances are transported by the groundwater flow. It is possible to supply into the ground.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. In this embodiment, the same components as those of the conventional technology shown in FIGS. 8 and 9 are denoted by the same reference numerals, and description thereof will be omitted.

The ground improvement facility 11 shown in FIG. 1 is installed for the purpose of preventing the existing underground structure 2 from being lifted, and comprises a water injection well 13, a pumping well 14, and a water circulation means 15. Have been. The water injection well 13 and the pumping well 14 are installed in the ground G at positions facing each other with the underground structure 2 therebetween. On the other hand, the water circulation means 15 includes a water supply pipe (water supply means) 17 for supplying water into the water supply well 13, a water supply pipe (pumping means) 18 for pumping water from the water supply well 14, and a water supply pipe 17. And a connecting pipe 19 for connecting the pumping pipe 18 to the pumping pipe 18. A pump P is provided between the connection pipe 19 and the pumping pipe 18, and
In the middle of the connection pipe 19, a branch pipe (substance supply means) 20 that branches from the connection pipe 19 is provided.
The pump P is configured to be able to pump the groundwater retained inside the pumping well 14 through the pumping pipe 18 and to supply the pumped groundwater to the pumping well 13 through the connection pipe 19 and the water injection pipe 17. Further, at least the lower ends 13a and 14a of the injection well 13 and the pumping well 14 have the bottom surface 2 of the underground structure 2.
screens 22 and 22 that allow water to pass between the ground G and the inside of the water injection well 13 and the pumping well 14 are formed on the lower ends 13a and 14a. Are provided respectively.

The above is the main configuration of the ground improvement facility 11. Next, a method of improving the ground G using the ground improvement facility 11 will be described. First, as shown in FIG. 1, a water injection well 13 and a pumping well 14 are provided adjacent to the underground structure 2, and a water circulation means 15 is provided for the water injection well 13 and the pumping well 14.

Then, the operation of the pump P is started, and a fine substance such as iron oxide is injected from the branch pipe 20 side to the connection pipe 19 side.

When the operation of the pump P is started,
Groundwater in the aquifer 7 is supplied from the pumping well 14 to the pumping pipe 1
8, the connection pipe 19 and the water injection pipe 17 are supplied into the water injection well 13. As a result, the water level rises in the injection well 13 and the water level decreases in the pumping well 14, and the potential U of the groundwater in the ground G becomes, for example, as shown in FIG.

As described above, the water injection well 13 and the pumping well 14
The potential level of the groundwater is disproportionate between the underground structure 2 and the water injection well 13 below the underground structure 2.
And the ground G _a located between the pumping well 14 and
A hydrodynamic gradient is created, which creates a groundwater flow, as indicated by the arrow in FIG.

On the other hand, the water supplied to the water injection well 13 from the water injection pipe 17, in order to fine material is turned, the fine material reaches the ground G _a through injection well 13 is transported by the water thing becomes, thereby gaps in the ground G _a is filled with fine material, so that the ground G _a is improved.

The operation of the pump P and the branch pipe 2
By continuing the input of fine substances from zero, the ground G
Improved range R of _a can, over time, and it spreads over the whole range between the water injection well 13 and pumping wells 14 as shown in FIG. 3 from a range as shown in FIG. 2 Become.

When the ground G _a is improved as shown in FIG. 3, the operation of the pump P and the charging of the fine substance are stopped, and the water circulation means 15 is removed, as shown in FIG. The improvement of the ground G _a below the underground structure 2 is completed.

[0028] In the above ground improvement method, filling the water injection well 13 with generating a groundwater flow between the pumping wells 14, the then transported into the ground G _a in the ground G _a fine material by the groundwater flow By doing so, it is possible to easily perform the ground improvement over a wide range as compared with the related art, and thereby, it is possible to reduce the cost of performing the ground improvement over a wide range as compared with the related art. It is possible.

In the above-mentioned ground improvement method, fine materials are supplied from the branch pipe 20 and supplied to the injection well 13 together with the groundwater pumped up from the pumping well 14. the amount of fine material is adjusted to an appropriate amount, it can be made to improve the ground G _a is satisfactorily performed.

Further, in the above-mentioned ground improvement method,
Water again water injection wells 13 pumped from pumping wells 14 because of the supply arrangement in the ground G, it is not necessary to newly supply the water, to generate the groundwater flow easily and economically in the ground G _a Is possible.

In the above-mentioned ground improvement method, the water injection well 13 and the pumping well 14 are arranged at positions facing each other with the existing underground structure 2 interposed therebetween, and the ground G _a below the underground structure 2 is arranged. In this case, the ground below the underground structure 2 can be improved, which has been difficult with the conventional method.

Further, in the above-mentioned ground improvement facility 11, a pumping pipe 18 is provided in the pumping well 14 and a pumping pipe 17 is provided in the pumping well 13, and the pumping pipe 17 is provided.
Screens 22, 22 capable of supplying fine substances from a branch pipe 20 communicating with the pump, and capable of transmitting water to both the pumping well 14 and the injection well 13.
Is provided. Due to such a simple configuration, the ground improvement facility 11 is different from the conventional ground improvement facility 1 in that it does not require a large number of boring holes, machines for injecting a chemical solution, and the like. As a result, costs related to construction and operation can be reduced.

Although an example of the embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and other configurations can be adopted as needed.

For example, in the above-described ground improvement method, dissolved oxygen water may be introduced instead of introducing the fine substance from the branch pipe 20. By doing so, it is deposited groundwater dissolved substance (dissolved iron, etc.), and is supplied into the ground G _a as fine material. This makes it possible to economically improve the ground using dissolved substances in the groundwater.

Further, as shown in FIG.
The water pumped from the pumping well 14 may be aerated and supplied to the injection well 13 as dissolved oxygen water by interposing the water storage tank T and the aeration means A in the water. Accordingly, it is not necessary to separately prepare dissolved oxygen water, and it is possible to stably and economically supply dissolved oxygen water to the injection well 13.

In the case where water containing a large amount of dissolved substances can be supplied from the outside, as shown in FIG. 6, water is supplied to the injection pipe 17 from the outside via the water storage tank T and the aeration means A. And the pumping pipe 18
May be discharged to the outside.

Apart from these, as shown in FIG. 7, along the water injection well 13 and the pumping well 14, they are located on the opposite side of the underground structure 2 with respect to the water injection well 13 and the pumping well 14. By providing the water blocking walls 24, 24 as described above, it is possible to more efficiently generate the groundwater flow in the ground G _a , thereby shortening the construction period.

In addition, other configurations may be adopted as long as they do not depart from the gist of the present invention, and the above-described modifications may be selectively combined. It does not matter.

[0039]

As described above, in the ground improvement method according to the first aspect, the groundwater flow is generated in the ground between the water injection well and the pumping well provided at an interval from each other, and the groundwater flow is generated. By transporting fine materials into the ground by flow and filling the ground, it is possible to easily perform ground improvement over a wider range than before, and when performing ground improvement over a wide range. Can be reduced as compared with the related art.

In the ground improvement method according to claim 2,
When supplying water to the water injection well, a fine substance is supplied at the same time, so that the amount of the fine substance can be adjusted to an appropriate amount so that the ground can be improved satisfactorily.

In the ground improvement method according to claim 3,
Dissolved oxygen water is supplied to the water injection well, and the dissolved oxygen water is used to precipitate dissolved substances in the ground to form fine substances. It can be performed.

In the ground improvement method according to claim 4,
Since the water pumped up from the pumping well is supplied to the ground again from the injection well, it is not necessary to newly supply water, and it is possible to easily and economically generate the groundwater flow in the ground.

In the ground improvement method according to claim 5,
Since the water pumped from the pumping well is aerated and then supplied to the injection well, it is not necessary to separately prepare dissolved oxygen water, and the dissolved oxygen water is supplied to the injection well stably and economically. It is possible to do.

In the ground improvement method according to claim 6,
Since the water injection well and the pumping well are arranged at positions facing each other with the existing structure 2 interposed therebetween and the groundwater flow is generated in the ground below the existing structure 2, a structure that is difficult with the conventional method. The ground under the object can be improved.

According to a seventh aspect of the present invention, in the ground improvement facility, the pumping well is provided with pumping means, the water injection well is provided with water supply means and substance supply means, and water can be transmitted through both the pumping well and the water injection well. Unlike a conventional ground improvement facility, it does not require a large number of boreholes or a machine for injecting chemicals, as it has a simple configuration with only a screen. As a result, costs related to construction and operation can be reduced.

[Brief description of the drawings]

FIG. 1 is a vertical sectional view of a ground improvement facility schematically showing an example of an embodiment of the present invention.

FIG. 2 is an elevational sectional view showing a situation when the ground below the underground structure is improved by the ground improvement facility shown in FIG. 1;

FIG. 3 is an elevational sectional view showing a situation after a lapse of a predetermined time from the situation shown in FIG. 2;

FIG. 4 is an elevational sectional view showing a situation when the ground improvement below the underground structure is completed.

FIG. 5 is an elevational sectional view of a ground improvement facility showing another embodiment of the present invention.

FIG. 6 is an elevational sectional view of a ground improvement facility showing still another embodiment of the present invention.

FIG. 7 is an elevational sectional view of a ground improvement facility showing still another embodiment of the present invention.

FIG. 8 is a view showing a conventional technique of the present invention, and is a perspective cross-sectional view showing a situation when the ground improvement is performed near the underground structure by the ground improvement facility.

FIG. 9 is a plan sectional view showing the condition of the ground improved by the ground improvement facility shown in FIG. 8;

[Explanation of symbols]

2 underground construction 11 ground improvement facilities 13 water injection wells 14 pumping wells 17 water injection pipe (water supply means) 18 pumping pipe (pumping unit) 20 second pipes (substance feed) 22 screen G, G _a ground A aerating means

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Masaharu Tadazaki 1-2-3 Shibaura, Minato-ku, Tokyo Shimizu Corporation

Claims (7)

[Claims] 1. A water injection well and a pumping well are installed in a ground so as to be separated from each other, and water is supplied to the water injection well and pumped up from the water pumping well. A ground improvement method, wherein a groundwater flow is generated by generating a hydraulic gradient therebetween, and the ground located between the injection well and the pumping well is filled with fine substances by the groundwater flow. 2. The soil improvement method according to claim 1, wherein, when supplying water to the water injection well, the fine substance is supplied together with the water into the water injection well. . 3. The soil improvement method according to claim 1, wherein dissolved oxygen water is used as water to be supplied to the water injection well, and dissolved substances in groundwater in the ground are precipitated by the dissolved oxygen water. A ground improvement method, wherein the fine substance is formed. 4. The soil improvement method according to claim 1, wherein the water pumped up from the pumping well is supplied again to the water injection well. 5. The soil improvement method according to claim 4, wherein the water pumped from the pumping well is aerated and then supplied to the water injection well. 6. The soil improvement method according to claim 1, wherein the injection well and the pumping well are respectively installed at positions facing each other with an existing structure interposed therebetween. A ground improvement method, wherein the groundwater flow is generated in the ground located below an existing structure. 7. A water injection well and a pumping well are provided at a distance from each other in the ground, the water injection well includes a water supply means for supplying water into the water injection well, and a fine substance in the water. The pumping well is configured to include pumping means for pumping water from the pumping well, and each of the water injection well and the pumping well is provided. , A ground improvement facility provided with a screen that allows water to permeate between the inside of the injection well and the pumping well and the ground.