JP3399666B2 - Ground improvement method and ground improvement equipment used for it - Google Patents

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 suitable for use in improving soft ground such as sand ground and a ground improvement apparatus used therefor.

[0002]

2. Description of the Related Art As is well known, solidifying materials such as lime and cement are prepared in the form of slurry, and the slurry is stirred and mixed with the soil in the ground to hydrate the solidifying material slurry. Ion exchange between hydration products of clay reaction and clay minerals, or chemical consolidation reaction mainly consisting of pozzolanic reaction etc. is used to chemically solidify the soil and create improved piles in the ground. There is a ground improvement method for improving the ground.

Conventionally, in this ground improvement method, a ground improvement device 1 based on a pile driver as shown in FIG. 7 has been used. In the ground improvement device 1, a stirring rod 4 is rotatably supported by a supporting column 3 provided on the main body 2 around its axis, and the lower end of the stirring rod 4 stirs the soil in the ground G. A schematic structure is provided in which a blade 5, an earth auger 6 for scraping soil in the ground G, and a discharge port 7 for supplying a solidifying material slurry into the ground G from a solidifying material supply means (not shown) are provided. ing.

In order to improve the ground G by using the ground improving apparatus 1 as described above, first, the stirring rod 4 is attached to the ground G.
While rotating, penetrates into the ground G with the earth auger 6 to a predetermined depth. Next, the solidified material slurry is supplied to the solidified material slurry by means of the solidified material supply means.
To squirt from. Then, while pulling up the stirring rod 4, the jetted solidified material slurry and the soil of the ground G are stirred by the earth auger 6 and the stirring blades 5 to solidify the soil and form a columnar improved pile in the ground G. Create.

According to the purpose of using the structure built on the ground G or the ground G, such an improved pile is
The ground G was improved by forming it alone or in a block shape, a grid shape, a continuous wall shape, or the like.

[0006]

However, the conventional ground improvement method as described above has the following problems. That is, since lime, cement, etc. were used as the solidifying material, the specific gravity of the ground G'after mixing the solidifying material slurry was larger than the specific gravity of the ground G before the improvement as shown in FIG. Therefore, the improved ground G '
There is a problem that may be subsided. In order to avoid such a problem, the ground G ′ may be a so-called floating foundation type, but even in such a case, subsidence may occur during the construction. There is also a problem that the uniaxial compressive strength of the ground G ′ after the improvement cannot be higher than that when the solidifying material is solidified. The present invention has been made in consideration of the above points, prevents subsidence of the ground after improvement or during construction, and a ground improvement method and a ground improvement device used therefor capable of increasing the strength of the ground. The purpose is to provide.

[0007]

The invention according to claim 1 is
When solidifying the soil by mixing it with the solidifying material to improve the ground, an additive material having a smaller specific gravity than the solidifying material to be improved is sent separately from the solidifying material and ejected into the ground. According to the method, the additive material is mixed with the earth and sand and the solidifying material, and they are mixed by stirring.

According to the second aspect of the present invention, when the solidifying material is mixed with the solidifying material of the ground to solidify the soil and improve the ground, an additive material having a higher strength than the solidified material by the solidifying material is added. It is characterized in that the additive material is mixed with the earth and sand and the solidifying material and agitated and mixed by being sent separately from the solidifying material and ejected into the ground.

The invention according to claim 3 is the ground improvement apparatus applied to the ground improvement method according to claim 1, wherein the tip is provided with a stirring blade for stirring the ground and is rotatable about an axis. The stirring rod that is movable in the axial direction, a solidification material supply mechanism that includes a discharge opening near the stirring blade and that supplies the solidification material to the soil in the ground from the discharge opening, and the solidification material supply mechanism Separately and independently, a discharge port is provided in the vicinity of the stirring blade, and the additive material is jetted from the discharge port to the soil in the ground.
An additive supply mechanism for supplying the additive is provided, and the additive supply mechanism is provided with a pressure feeding means for feeding the additive by a compressed air flow from a compressor.

The invention according to claim 4 is the ground improvement device applied to the ground improvement method according to claim 2, wherein the tip is provided with a stirring blade for stirring the ground, and is rotatable about an axis and The stirring rod that is movable in the axial direction, a solidification material supply mechanism that includes a discharge opening near the stirring blade and that supplies the solidification material to the soil in the ground from the discharge opening, and the solidification material supply mechanism Separately and independently, a discharge port is provided in the vicinity of the stirring blade, and the additive material is jetted from the discharge port to the soil in the ground.
And an additive supply mechanism for supplying the additive , and the additive supply mechanism includes a pressure-feeding means for pressure-feeding the additive by a compressed air flow from a compressor, and the additive fed by the pressure-feeding means from the discharge port. It is characterized in that it is provided with a screw conveyor for jetting.

[0011]

According to the first aspect of the present invention, when improving the ground, an additive material having a smaller specific gravity than the earth and sand of the ground to be improved.
Is sent separately from the solidifying material and ejected into the ground.
And mix the additive material with the earth and sand and the solidified material by stirring.
It was configured to match . Thereby, the specific gravity of the earth and sand of the ground in which the solidifying material and the additive material are mixed can be made smaller than the specific gravity when only the conventional solidifying material is mixed.

According to the second aspect of the present invention, when the ground is improved, the strength is higher than that of the earth and sand solidified by the solidifying material.
The additive material to be injected is pumped separately from the solidified material and ejected into the ground.
By mixing the additive material with the soil and solidification material,
Then, they were mixed by stirring . In this way, by mixing, for example, mill ends of steel material as an additive material, this additive material can be used as a reinforcing material, and the strength of the ground improved by mixing the solidifying material and the additive material, It is possible to raise the temperature more than when the conventional solidifying material alone is mixed.

According to the invention of claim 3, the invention of claim 1
As a ground improvement device applied to the ground improvement method, a stirring rod having a stirring blade at the tip, a solidifying material supply mechanism having a discharge port in the vicinity of the stirring blade, and a solidifying material supply mechanism, independently of each other, A configuration is provided in which a discharge port is provided in the vicinity of the stirring blade and an additive supply mechanism that supplies the additive is provided. This allows the stirring rod to penetrate into the ground while rotating, and the solidified material discharged into the ground by the solidified material supply mechanism and the additive material supplied into the ground by the additive material supply mechanism into the ground by the stirring blade. The soil can be solidified and the ground can be improved by mixing it with the soil. At this time, if, for example, a material having a smaller specific gravity than the earth and sand in the ground, such as Styrofoam, waste plastic, or lightweight aggregate, is used as the additive material, it is more likely to be constructed by mixing only the solidifying material. Also, it is possible to reduce the specific gravity of the ground after improvement. Well
In addition, the additive material supply mechanism has a compressor
A configuration including a pressure-feeding means for pressure-feeding the additive material by an air flow,
Therefore, as an additive material, for example, light weight such as Styrofoam
Discharge located near the stirring blade even when using
It is possible to reliably supply the additive material from the mouth into the soil of the ground.
Wear. Furthermore, since the solidifying material supply mechanism and the additive material supply mechanism are separately provided, the solidifying material and the additive material can be supplied separately. This makes it possible to prevent the solidifying material and the additive material from being separated from each other when the solidifying material and the additive material having greatly different specific gravities are mixed and fed.

According to the invention of claim 4, the invention of claim 2
As a ground improvement device applied to the ground improvement method, at the tip
A stirring rod equipped with a stirring blade and a discharge port near the stirring blade.
The solidification material supply mechanism and the solidification material supply mechanism are independent
Equipped with a discharge port near the stirring blade to supply the additive material.
It is configured to include an additive supply mechanism. This will stir
While rotating the rod, it penetrates into the ground to provide solidifying material.
With the solidified material discharged into the ground by the feeding mechanism and the additive material feeding mechanism
The additive material supplied to the ground is mixed with the stirring blades into the soil in the ground.
By mixing, the soil is solidified and the ground is improved.
You can At this time, as an additive material, for example, a steel material
It has higher strength than earth and sand solidified with solidifying materials such as scraps.
If one is used, it is possible to mix only the solidification material in the past.
The strength of the ground after improvement is higher than when it was built.
Can be turned on. In addition, the additive material supply mechanism is
Pressurization to send additive material by compressed air flow by lesser
Means and the additive material pumped by the pumping means from the discharge port
It has a structure that has a screw conveyor to eject
Then, from the discharge port located near the stirring blade into the soil
The additive material can be reliably supplied. Furthermore, solidification
The material supply mechanism and the additive material supply mechanism are separately provided.
Therefore, the solidifying material and the additive material can be supplied separately.
It As a result, the solidifying material and the additive material with greatly different specific gravities
When mixed and fed, the solidifying material and the additive material are separated.
Can be prevented.

[0015]

The present invention will be described below with reference to the first and second embodiments shown in the drawings. [First Example] Here, in the first example, description will be given using an example in which styrofoam is used as an additive material added to the solidifying material. 1 to 4 show a ground improvement device according to the present invention. As shown in FIG. 1, in the ground improvement device 10, a support column 12 is vertically provided in front of a main body 11 having an endless caterpillar 11a for moving, and the support column 12 is used for drilling and stirring the ground G. The structure is provided with the drilling / agitation mechanism 13.

As shown in FIG. 2, the drilling / agitation mechanism 13
Is configured to include two stirring rods 14 and 14 and one addition material pressure feeding pipe (addition material pressure feeding mechanism) 15.

The stirring rods 14, 14 are supported at their upper ends by being connected to and supported by a speed reducer 17 of a drive motor (driving source) 16. The drive motor 16 drives the speed reducer 17 through the speed reducer 17. Thus, each stirring rod 14 is driven to rotate about its axis. The drive motor 16 and the speed reducer 17 are provided on the support column 12 (see FIG. 1).
It is provided so as to be movable up and down along with, and thereby the stirring rods 14 and 14 are configured to be movable vertically.
In addition, the interference band 1 is attached to the lower ends of the stirring rods 14, 14.
8 are provided so as to maintain the distance between them.

From the interference band 18, spiral blades 19, 19, ... Having a constant outer diameter, which are spirally continuous, are discharged from the interference band 18 on the outer peripheral surface of each stirring rod 14 as described above. Is also formed on the upper side.

At the lower end of each stirring rod 14, stirring blades 20 and 21 are provided. These stirring blades 20,
21 are provided so as to be orthogonal to each other in a plan view. Further, a bit (not shown) for efficiently agitating the ground G is provided at the tip of the stirring blade 21 on the lower end side.

At the base of the stirring blade 21, a solidifying material,
For example, a discharge port 22 for discharging cement slurry or the like
Is provided. The discharge port 22 has a stirring rod 1
One end of a slurry hose 23 passing through the inside of the No. 4 is connected. The other end of the slurry hose 23 is connected to a slurry manufacturing device 24 provided in the main body 11 (see FIG. 1) for feeding the solidifying material.

The slurry manufacturing apparatus 24 mixes cement supplied from the cement silo 25 through the cement measuring device 26 and water supplied from the water tank 27 through the water measuring device 28 with the mixer 29. The cement slurry is manufactured and stored in the agitator 30.

The discharge port 22 and the slurry hose 2 described above
3, the solidification material supply mechanism 32 is configured from the slurry manufacturing apparatus 24. Then, in the solidifying material supply mechanism 32,
The cement slurry manufactured by the slurry manufacturing apparatus 24 is sent out by the slurry supply pumps 31 and 31 as needed, and is ejected from the discharge port 22 through the slurry hose 23.

The additive feed pipe 15 is cylindrical and is provided so that its lower end is located near the stirring blades 20, 20 of the stirring rods 14, 14. As shown in FIG. 3, a check valve (discharge port) 33 is provided at the lower end of the additive feed pipe 15.

The check valve 33 includes a valve 34 that opens and closes an opening at the lower end of the additive feed pipe 15, and a shaft guide provided on the inner surface of the additive feed pipe 15 for holding the valve 34 vertically movable. 35 and a spring 36 for urging the valve 34 upward. The valve 34 is
The shaft 34a has a shape in which a substantially conical (cone-shaped) valve portion 34b whose diameter gradually increases is formed in the lower portion of the shaft 34a,
The upper portion of the shaft 34a has a shape in which a convex portion 34c for holding the spring 36 with the shaft guide 35 is formed.

The check valve 33 having such a structure normally operates as follows.
The valve 34 is closed by the urging force of the spring 36 to close the opening of the additive feed pipe 15. Then, when the pressure of the compressed air sent from the additive material feeding device (additive material feeding mechanism) 40 described below becomes a certain level or more, the valve 34 is lowered by this pressure so that the opening portion of the additive material feeding pipe 15 is opened. It has become. Then, when the pressure of the compressed air drops below a certain level, the valve 34 is raised by the urging force of the spring 36, and the opening of the additive feed pump 15 is closed again.

As shown in FIG. 2, the additive material pressure feeding pipe 1
The additive material pressure-feeding device 40 that pressure-feeds the additive material to 5 is connected to the additive material pressure-feeding pipe 15 via a pressure-feeding hose 41. This additive material pressure-feeding device 40 includes a crusher 42 for crushing an additive material such as styrofoam, which is an industrial waste, into a particle size of a predetermined size or less, a storage tank 43 for storing the crushed additive material, a storage A pressure feeding mechanism (pressure feeding means) 44 for feeding the added material to the pressure feeding hose 41.

As shown in FIG. 4, in the storage tank 43, an impeller 45 that scrapes off the stored additive material to prevent breathing in the storage tank 43, and the amount of the additive material supplied from the storage tank 43 are provided. A rotary valve 46 for adjusting is provided.

The pressure-feeding mechanism 44 has a compressor (pressure-feeding means) 47 (see FIG. 2) for feeding compressed air on the upstream side, and an opening 48a is formed in the upper surface of a pressure-feeding pipe 48. A supply pipe 49 extending from is connected to the opening 48a. The lower end portion 49a of the supply pipe 49 is arranged at the central portion in the radial direction of the pressure feeding pipe 48, and is bent toward the downstream side (the left side in FIG. 4) in the flow direction of the compressed air in the pressure feeding pipe 48. Has become.

In such a pressure-feeding mechanism 44, when compressed air is fed from the compressor 47 into the pressure-feeding pipe 48, the pressure in the pressure-feeding pipe 48 decreases due to the flow velocity thereof, and a negative pressure is generated. Due to this negative pressure, the additive material in the storage tank 43 is taken into the pressure feed pipe 48 via the supply pipe 49. Then, the additive material taken into the pressure-feeding pipe 48 is pressure-fed to the additive-material pressure-feeding pipe 15 by the compressed air via the pressure-feeding hose 41.

Next, the ground improvement device 1 having the above-mentioned structure.
The ground improvement method using 0 will be described. First,
The stirring rods 14, 14 are positioned at predetermined locations on the ground G. Next, the drive motor 16 drives the stirring rods 14, 14
Is driven to rotate, the stirring blades 20 and 21 are rotated, and the boring and stirring mechanism 13 is caused to penetrate into the ground G by its own weight. At this time, as shown in FIG.
With the pull-out winch 50 provided in the main body 11, the wire 51 that suspends the drilling / agitation mechanism 13 is unwound.

In this way, when the ground G is drilled by the stirring blades 20 and 21 to a predetermined depth, the feeding of the wire 51 by the pull-out winch 50 provided in the main body 11 is stopped to drill and stir. The lowering of the mechanism 13 is stopped. Then, the cement slurry stored in the agitator 30 of the slurry manufacturing apparatus 24 is supplied to the slurry supply pump 31.
Is discharged into the ground G from the discharge port 22 of each stirring rod 14.

While discharging the cement slurry in this manner, the feeding of the wire 51 by the pull-out winch 50 is restarted to further lower the drilling / stirring mechanism 13, and the drilling by the stirring blades 20 and 21 is continued. At this time, the cement slurry discharged from the discharge port 22 is stirred by the stirring blades 20,
21 mixes and mixes with the soil in the ground G. Also,
Spiral blades 19 provided on the stirring rods 14,
By 19, the volume of earth and sand corresponding to the amount of the cement slurry and the additive material supplied into the ground G is discharged to the ground, thereby preventing the lateral displacement of the ground G.

After that, when the stirring blades 21 and 21 reach a predetermined depth or a depth that cannot be advanced, the feeding of the wire 51 by the extraction winch 50 is stopped and the drilling / stirring mechanism 13 is lowered. To stop. Then, the rotation direction of the drive motor 16 is switched, and the stirring rods 14, 14 are
Reverse. Then, the cement slurry is discharged while the stirring rods 14 and 14 are being rotated.
Is ejected into the ground G for a certain period of time to perform the tip treatment.

When the tip processing is completed, the additive material feeding device 4
Compressed air is sent from the compressor 47 of 0 to the pressure feeding pipe 48 and the pressure feeding hose 41. Then, as shown in FIG. 4, the negative pressure generated in the pressure feed pipe 48 by the compressed air causes the additive material stored in the storage tank 43 to be sucked into the pressure feed pipe 48 through the supply pipe 49. Then, it is pumped by the flow of compressed air. Then, as shown in FIG. 3, when the pressure of the compressed air reaches a certain pressure or more, the pressure causes the valve 34 of the check valve 33 to open, so that the additive material is jetted into the ground G from there. At this time, since the valve 34 has a substantially conical shape, the ejected additive material diffuses. The compressed air sent into the ground G is the spiral blades 19, 1 of the stirring rods 14, 14.
It is designed to escape to the ground along line 9. Further, the spiral blades 19 and 19 prevent the additive material having a low specific gravity, which is ejected into the ground G, from floating to the ground.

In this way, while the additive material is jetted into the ground G, the wire 51 is wound up by the extraction winch 50 to pull up the stirring rods 14 and 14, and the additive material is grounded by the stirring blades 20 and 21. Stir-mix with the earth and sand inside and the cement slurry already mixed in the ground G.

As described above, the hydration reaction of the cement slurry discharged into the ground G and stirred and mixed with the earth and sand, the ion exchange action between the hydration product of this hydration reaction and the clay mineral, or the pozzolanic reaction The soil is chemically solidified by the chemical consolidation reaction mainly composed of, etc., whereby a columnar improved pile is formed in the ground G.

After that, the above steps are repeated to construct a predetermined number of improved piles at predetermined positions to complete the improvement of the ground G.

In the ground improvement method described above, when the ground G is improved, the cement slurry is mixed with an additive having a smaller specific gravity than the earth and sand of the ground G to be improved, such as expanded polystyrene. As a result, the specific gravity of the improved ground G in which the cement slurry and the additive are mixed can be reduced as compared with the specific gravity when only the conventional cement slurry is mixed. As a result, it becomes possible to prevent the subsidence of the ground G after the improvement and during the construction. Moreover, if the industrial waste such as styrofoam is used as the additive as described above, the resources can be reused and the waste can be reduced.

Further, the ground improvement device 10 described above has the stirring rods 14 and 14 having stirring blades 20 and 21 at the tips thereof.
And a solidifying material supply mechanism 32 for discharging cement slurry
And an additive material pumping device 40 for discharging the additive material. Thereby, the soil G in the ground G can be improved by mixing the cement slurry and the additive in the ground G while stirring the soil in the ground G to solidify the soil and improve the ground G. At this time, the solidifying material supply mechanism 32 and the additive material pressure-feeding device 40 are separately provided, and the separate discharge ports 2 are provided.
Since the cement slurry and the additive are respectively discharged from 2 and the check valve 33, they can be separately supplied without being mixed. As a result, the cement slurry and the additive having greatly different specific gravities and the additive can be uniformly supplied into the ground G, and the ground G can be improved uniformly. Further, since the additive feeding pipe 15 is provided independently of the stirring rods 14 and 14, the pipe diameter can be arbitrarily set according to the amount and particle diameter of the additive used. It is possible, and by this, the additive material pressure feeding pipe 15
It is possible to prevent clogging of additive materials inside,
The maintenance can be easily performed.

Furthermore, the additive material pressure-feeding device 40 is provided with a pressure-feeding mechanism 44 so as to pressure-feed the additive material. Accordingly, even when a lightweight material such as styrofoam is used as the additive material, the additive material can be reliably supplied from the check valve 33 into the earth and sand of the ground G.

In the above-described first embodiment, styrene foam is used as the additive material, and the crusher 42 provided in the additive material pressure-feeding device 40 crushes the foamed material into particles of a predetermined size or smaller. However, if it has a smaller specific gravity than the soil in the ground G and can be used as an additive by crushing with a crusher 42, for example, waste plastic or used fishing nets broken into small pieces Others such as the above may be used.

[Second Embodiment] Next, as a second embodiment of the present invention, as an additive material added to the solidifying material, for example, a steel material coated with a resin is used to reinforce the ground. explain. In the following description, the same components as those in the first embodiment will be designated by the same reference numerals and the description thereof will be omitted. As shown in FIG. 5, the ground improvement device 6
0 has substantially the same structure as the ground improvement device 10 of the first embodiment shown in FIG.
A point that the crusher 42 (see FIG. 2) of the ground improvement device 10 is not provided, and a screw conveyor (additive material pumping mechanism) 59 having a spiral screw 59a inside instead of the additive material pumping pipe 15 is provided. The only difference is that it is provided.

When the ground G is improved by using the ground improving apparatus 60 as described above, the following additive materials are used. As shown in FIG. 6 (a) or (b), the reinforcing material (additive material) 61 or 62 is formed by cutting a waste steel material such as a used wire or cable into a certain length. The scrap 63 is covered with a covering material 64 or 65 made of a resin such as vinyl chloride.

Next, a ground improvement method using the ground improvement device 60 and the reinforcing material 61 or 62 as described above will be described. In this construction method, the stirring rods 14 and 14 are penetrated into the ground G to a predetermined depth in the same manner as in the first embodiment, and the cement slurry is discharged from the discharge ports 22 and 22 into the ground G by the solidifying material supply mechanism 32. While ejecting
The stirring blades 20 and 21 stir and mix this with the soil in the ground G. Then, after that, while pulling up the stirring rods 14 and 14, the reinforcing material 61 or 6 is added by the additive material pumping device 40 ′.
2 is discharged from the check valve 33, and the stirring blades 20, 21
The improved pile is formed in the ground G by stirring and mixing with.

However, when the reinforcing material 61 or 62 is supplied by the additive material feeding device 40 ', the reinforcing material 61 or 62 is formed in a predetermined shape in a factory or the like in advance, and this is directly stored in the storage tank on site. It should be put in 43. Then, as in the first embodiment, the reinforcing member 61 or 62 is pressure-fed by the compressed air in the pressure-feeding pipe 48, and then the screw 5 of the screw conveyor 59.
It is sent downward by 9a and ejected from the valve 34.

In the ground improvement method described above, when the ground G is improved, the cement slurry is mixed with the reinforcing material 61 or 62 having the steel end material 63 as the core material. As a result, the strength of the ground G after improvement can be increased as compared with the conventional one improved with only cement slurry. Therefore, the ground G improved in this way
Can be particularly effectively applied to a building foundation, a retaining wall foundation, or the like that is subjected to an eccentric load. In addition, the amount of cement used can be reduced by mixing the reinforcing materials 61 and 62. Moreover, the reinforcing material 6
Since the scrap materials 63, which are scrap materials, are used as the scrap materials 1, 62, the waste materials can be effectively used. Furthermore, if the reinforcing members 61 and 62 are lightweight, it is possible to prevent the subsidence of the ground G after improvement and during construction, as in the first embodiment.

In the second embodiment, in the ground material G, the reinforcing material 61, 62 constructed by coating the end material 63 of the steel material with the coating material 64, 65 is used in the ground material G in the additive material feeding device 40 'of the ground improvement device 60. However, other materials may be supplied as long as they do not need to be crushed when pressure-feeding them by the additive material pressure-feeding device 40 '. . At this time, if a lightweight material such as fly ash or lightweight aggregate such as sand is supplied as the additive material, the same effect as that of the first embodiment can be obtained. Further, in the ground improvement method of the first and second embodiments, the improved pile formed in the ground G has a cylindrical outer diameter, but the shape is not limited at all. For example, when the surface layer portion has a large diameter portion, and an improved pile having a shape in which the deep layer portion has a small diameter portion or an improved pile having a shape in which the large diameter portion and the small diameter portion are alternately continuous is formed, the ground according to the present invention An improved construction method and a ground improvement device may be used.

[0048]

As described above, according to the ground improvement method of the first aspect, when the ground is improved, it is improved.
What is a solidifying material that has a smaller specific gravity than the earth and sand of the right ground?
Addition by separately pumping and ejecting into the ground
The material was mixed with the earth and sand and the solidified material, and mixed by stirring . Thereby, the specific gravity of the earth and sand of the ground in which the solidifying material and the additive material are mixed can be made smaller than the specific gravity when only the conventional solidifying material is mixed. As a result, it becomes possible to prevent subsidence of the ground during construction and after improvement. In addition, if industrial waste such as Styrofoam or waste plastic, used fishing nets, or the like is used as an additive, resources can be reused and waste can be reduced.

According to the ground improvement method of the second aspect, when the ground is improved, it is better than the earth and sand solidified by the solidifying material.
The ground is obtained by pumping the additive material with high strength separately from the solidifying material.
By spraying the additive into the
The chemicals were mixed and stirred and mixed . In this way, the strength of the ground improved by mixing the solidified material and the additive material, for example, by mixing the mill ends of the steel material as the additive material, the strength of the ground is improved from that when only the conventional solidified material is mixed. It is also possible to increase. Therefore, this method can be applied particularly effectively when constructing a foundation to which an eccentric load is applied, such as a foundation of a building or a foundation of a retaining wall.

According to the ground improvement device of the third aspect, the contract
As a ground improvement device applied to the ground improvement method described in Requirement 1.
In addition, a stirring rod having a stirring blade at its tip, a solidification material supply mechanism, and an addition material supply mechanism provided separately from the solidification material supply mechanism are provided. As a result, the stirring rod is rotated to penetrate into the ground, and the solidified material discharged into the ground by the solidified material supply mechanism and the additive material supplied into the ground by the additive material supply mechanism are mixed with the soil in the ground. Thereby, the soil can be solidified and the ground can be improved. At this time, if an additive material having a smaller specific gravity than the soil in the ground, such as styrofoam, waste plastic, lightweight aggregate, etc., is used, the specific gravity of the additive material is smaller than that when it is constructed by mixing only the solidifying material. A light improved ground can be created. As a result, it is possible to prevent subsidence of the ground during construction and after improvement. Also, in the additive material supply mechanism
Is the additive material by the compressed air flow by the compressor
Since it is configured to have a pumping means for pumping,
For example, when using a lightweight material such as Styrofoam
Also, from the discharge port located near the stirring blade into the soil of the ground
The additive material can be reliably supplied. Further, since the solidifying material supply mechanism and the additive material supplying mechanism are separately provided, the solidifying material and the additive material can be separately supplied, and the solidifying material and the additive material having greatly different specific gravities are mixed and supplied. In this case, the ground can be improved homogeneously without the problem of separation of the solidifying material and the additive material. Furthermore, by separately providing the solidifying material supply mechanism and the additive material supply mechanism, the pipe diameter of the additive material supply mechanism can be arbitrarily set according to the amount and particle size of the additive material to be used. As a result, it is possible to prevent clogging and the like in the pressure feed pipe, and it is also possible to easily perform maintenance.

According to the ground improvement device of the fourth aspect, the contract
As a ground improvement device applied to the ground improvement method described in Requirement 2.
Agitating rod with agitating blade at the tip and solidifying material supply
Supplying additive material provided separately from the mechanism and solidifying material supply mechanism
And a mechanism. This allows the stirring rod to
While rotating, it penetrates into the ground and the solidifying material supply mechanism
The solidified material discharged into the ground and the additive material supply mechanism supply it to the ground.
By mixing the supplied additive material with the soil in the ground
The soil can be solidified to improve the ground. This
At this time, as an additive material, for example, a scrap material of steel material, etc.
If you use a material that has a higher strength than the soil
Conventionally, it was constructed by mixing only solidified materials
The strength of the ground after improvement can be increased more than
A solid ground can be created. Also, additive material feeder
In the structure, the additive material by compressed air flow by the compressor
And a pressure-feeding means for pressure-feeding the
With a screw conveyor for ejecting additive from the discharge port
Since it is equipped with a discharge, the discharge located near the stirring blade
It is possible to reliably supply the additive material from the mouth into the soil of the ground.
Wear. Separately, the solidification material supply mechanism and the additive material supply mechanism
Since it is configured to be installed in the
Solidified and additive materials that can be supplied and have greatly different specific gravities
The solidifying material and the additive material that are generated when and are mixed and supplied
Homogeneous ground without problems such as separation
Can be improved. In addition, the solidifying material supply mechanism and
By adding the additive material supply mechanism separately, the additive material supply
The pipe diameter of the mechanism depends on the amount and particle size of the additive material used.
This can be set by the user, which causes clogging in the pumping line.
Can be prevented and maintenance is also possible.
It can be easily performed.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of a ground improvement device used in a ground improvement method according to the present invention, and is a side view showing an outline of the device.

FIG. 2 is a schematic diagram showing a main part of the ground improvement device.

FIG. 3 is a front sectional view showing a discharge port of the additive supply mechanism.

FIG. 4 is a front sectional view showing a part of the additive supply mechanism.

FIG. 5 is a diagram showing another example of the ground improvement apparatus used in the ground improvement method according to the present invention, and is a schematic view showing a main part of the ground improvement apparatus.

FIG. 6 is a front view and a side view showing an example of an additive material used in the ground improvement method according to the present invention.

FIG. 7 is a side view showing an example of a conventional ground improvement device.

FIG. 8 is a vertical cross-sectional view showing the ground improved by a conventional ground improvement method.

[Explanation of symbols]

10,60 Ground improvement device 14 Stirring rod 15 Additive material pressure feed pipe (additive material pressure feed mechanism) 16 Drive motor (drive source) 20,21 stirring blade 22 Discharge port 33 Check valve (discharge port) 40, 40 'Additive material pumping device (additive material supply mechanism) 44 pressure feeding mechanism (pressure feeding means) 59 Screw conveyor (additive material pumping mechanism) 61,62 Reinforcement material (additive material) G ground

─────────────────────────────────────────────────── --- Continuation of the front page (72) Inventor Junji Tanaka 1-13-23, Kashiidai, Higashi-ku, Fukuoka-shi, Fukuoka (72) Inventor Sumio Ito 4-76 Matsugaoka, Kasuga-shi, Fukuoka Reference (56) 6-228942 (JP, A) JP 6-257169 (JP, A) JP 5-255924 (JP, A) JP 6-257135 (JP, A) JP 63-268811 (JP, A) Actual development Sho 51-105208 (JP, U) Actual development Hei 5-27128 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) E02D 3/12 102

Claims (4)

(57) [Claims] 1. When the solidification material is mixed with the solidification material of the ground to solidify the soil and improve the ground, an additive material having a smaller specific gravity than the soil of the ground to be improved is defined as the solidification material.
A ground improvement method characterized in that the additive material is mixed with the earth and sand and the solidifying material, and the mixture is agitated and mixed by separately pumping and ejecting it into the ground. 2. When the solidification material is mixed with the soil material of the ground to solidify the soil material and improve the ground, an additive material having a higher strength than the soil material solidified by the solidification material is solidified.
By pumping separately from the chemical material and ejecting it into the ground,
A ground improvement method characterized by mixing the additive material with soil and solidifying material and stirring and mixing them. 3. A ground improvement apparatus applied to the ground improvement method according to claim 1, wherein the tip has a stirring blade for stirring the ground, and is rotatable about an axis and movable along the axis. A stirring rod, a solidification material supply mechanism that includes a discharge opening near the stirring blade and that supplies a solidification material to the soil in the ground from the discharge opening, and the solidification material supply mechanism, independently of the solidification material supply mechanism. An additive material supply mechanism is provided in the vicinity of the stirring blade, and an additive material supply mechanism that supplies the additive material by ejecting the additive material to the soil in the ground from the discharge opening is provided. A ground improvement device comprising a pumping means for pumping the additive material. 4. The ground improvement apparatus applied to the ground improvement method according to claim 2, wherein the tip has a stirring blade for stirring the ground and is rotatable about the axis and movable in the axis direction. A stirring rod, a solidification material supply mechanism that includes a discharge opening near the stirring blade and that supplies a solidification material to the soil in the ground from the discharge opening, and the solidification material supply mechanism, independently of the solidification material supply mechanism. An additive material supply mechanism is provided in the vicinity of the stirring blade, and an additive material supply mechanism that supplies the additive material by ejecting the additive material to the soil in the ground from the discharge opening is provided. A ground improvement device comprising: a pressure feeding means for feeding the additive material by pressure; and a screw conveyor for ejecting the additive material pressure-fed by the pressure feeding means from the discharge port.