KR20190136534A - Excavation agitator with guide bit, high strength continuous wall formation and deep layer mixing processing method using the same - Google Patents

Abstract

The present invention relates to an agitator, and more specifically, to an agitator with a guide bit, which includes: a rod part formed to transmit air and eco-friendly solidifying agents to a lower end through a path formed therein; an excavation part formed on the lower end of the rod part and having a spraying device spraying the eco-friendly agents transferred through the path of the rod part to the ground and an excavation bit perforating the ground; and one or more guide bits formed on an outer surface of the rod part to be interlocked with rotation of the rod part, thereby solidly hardening a perforation wall by complex consolidation application of a consolidation wing and prominently reducing the discharge amount of slime generated during stirring. The present invention also relates to a construction method for high-strength continuous wall formation and deep mixing treatment using the same (H.D.C.M).

Description

Agitator with guide bit and high strength continuous wall formation and deep layer mixing processing method using the same

The present invention relates to a stirring device, and more particularly, by providing a guide bit to reduce the slime discharged during excavation and stirring, and to provide a stirring device having a guide bit to increase the stirring efficiency and to form a high-strength continuous wall and deep mixing treatment using the same It is about public law.

In general, when constructing new buildings, opening roads, or installing facilities such as underground passage box structures or temporary walled temporary facilities, the soft ground is a soft ground composed of sea-soil viscous soils and stratified clay soils. After reinforcing, structures such as passage boxes and underground roadways were installed.

The method of reinforcing the soft ground is divided into the deep mixing treatment method of mixing the cement milk, which is a chemical liquid, with the soft soil, and the cement milk injection method and the freezing method, which solidify the gap between the soil and the hard material.

Among them, the deep mixing treatment method is divided into powder system mechanical stirring, slurry system mechanical stirring and high pressure spray stirring. Powder system mechanical stirring and slurry system mechanical stirring are made by using a propeller-shaped agitator blade. It is a mechanical stirring method for stirring.

In this deep mixing process, the stirring blade and the excavation bit are attached to one rod together, and the agitation operation caused by the rotation of the screw auger attached to the rod increases the discharge of slime, which is a waste, which is not environmentally friendly. do.

Republic of Korea Patent Registration No. 10-0894988

The present invention has been made to solve the above problems, it is an environmentally friendly hardener having a greater compressive strength than cement milk during curing and eco-friendly to suppress slime discharge during agitation between soils, growing viscous soils deposited in the land environment in soft ground. High-strength continuous wall using a stirring device equipped with a guide bit to increase agitation efficiency by forming a uniform mixing between eco-friendly hardener and earth and sand even if there is a solidified layer like a layer. It is to provide a formation and deep mixing process (HDCM).

As a means for solving the above problems, the stirring device with a guide bit according to the present invention includes a rod unit configured to deliver air and an eco-friendly hardener to the bottom through a passage formed in the inner side; An excavation part configured at a lower end of the rod part and including an injection hole for injecting an eco-friendly hardener transferred through the passage of the rod part into the ground and an excavation bit for drilling the ground; And at least one guide bit configured on an outer surface of the rod part and configured to interlock with rotation of the rod part.

At this time, the guide bit, the body extending from the outer surface of the rod portion by a predetermined length in the transverse side perpendicular to the longitudinal direction of the rod portion; Agitation blades each configured at least one on the upper and lower surfaces of the main body; And a consolidation wing configured at the end of the main body.

In addition, the consolidation wing is configured to include a vertical portion and an inclined portion connected to each other in a bent form, the vertical portion of the longitudinal direction is disposed in parallel with the rod portion, the inclined portion is the end of the lower end of the vertical portion It characterized in that it extends to have a predetermined inclination angle θ1 to face the rod portion.

As an example, the inclination angle θ1 is characterized in that 20 ° to 25 °.

As another example, the consolidation wing is configured in the form of a triangular cross section, the consolidation blade, which is one corner of the triangular cross section is configured to face the direction in which the main body proceeds by the rotation of the rod, triangular of the consolidation wing The consolidation surface located on the opposite side of the rod portion is configured to have a predetermined inclination angle θ2 to protrude outward toward the rear end side from the consolidation blade which is the front end. .

In addition, the high-strength continuous wall formation and the deep mixing process using a stirring device equipped with a guide bit penetration step of penetration into the soft ground using a stirring device equipped with a guide bit; Supplying an eco-friendly hardener in the ground by using a stirring device provided with a guide bit; The stirring and mixing of the earth and sand and eco-friendly hardener by using a stirring device equipped with a guide bit and stirring and compacting the perforated wall;

High-strength continuous wall formation and deep mixing method using a stirring device equipped with a guide bit according to the present invention can be solidified perforated wall by the complex consolidation action of the consolidation blade, and significantly reduces the slime discharge generated during stirring It has the effect of reducing it.

1 is a view showing an embodiment of a stirring device equipped with a guide bit according to the present invention.
Figure 2 is an enlarged view of the main portion in FIG.
Figure 3 is a view showing an embodiment of a consolidated blade which is one configuration of the present invention.
Figure 4 is a view showing another embodiment of the consolidated blade which is one configuration of the present invention.
5 is a view showing an embodiment of the stirring blade which is one configuration of the present invention.
6 is a view showing another embodiment of a stirring device equipped with a guide bit according to the present invention.
7 is a view showing a high-strength continuous wall formation and deep mixing treatment method using a stirring device equipped with a guide bit according to the present invention.

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

1 is a view showing an embodiment of a stirring device equipped with a guide bit according to the present invention, Figure 2 is an enlarged view of the main portion in Figure 1, Figure 3 is a consolidation wing of one configuration of the present invention 1 is a diagram illustrating an embodiment. In addition, Figure 4 is a view showing another embodiment of the consolidation wing which is one configuration of the present invention, Figure 5 is a view showing an embodiment of the stirring blade which is one configuration of the present invention, Figure 6 is a guide according to the present invention Figure is a view showing another embodiment of the stirring device provided with a bit. And Figure 7 is a view showing a high-strength continuous wall formation and deep mixing treatment method using a stirring device equipped with a guide bit according to the present invention.

The stirring device equipped with the guide bit 30 according to the present invention is a device for a high strength continuous wall method or a deep mixing treatment method, and controls the slime discharge and disturb in the process of infiltrating the soft ground to suppress slime discharge. Then, after spraying the eco-friendly hardener is configured to perform mechanical stirring between the eco-friendly hardener and the soil.

The stirring device with a guide bit according to the present invention is characterized in that it comprises a rod portion 10, excavation portion 30 and the guide bit (30).

First, the rod portion 10 is penetrated into the soft ground, as shown in Figure 1, the overall length of the inside of the rod portion 10 so that an environment-friendly hardener or air can be supplied through the front end of the rod portion 10 As long as the passage 11 may be provided, when an environment-friendly hardener is injected through an injection hole (not shown) formed at the tip end of the rod portion 10 from the ground, the rod portion 10 may be disposed through the passage 11. It can be delivered to the injection port 22 of the excavation portion 30 is formed in the lower end can be injected into the ground.

As shown in FIG. 1, the excavation part 30 is configured at a lower end of the rod part 10, and includes an excavation bit 21 and a passage 11 of the rod part 10 to drill the ground. It is comprised including the injection port 22 in communication.

Various conventional forms for drilling the ground may be applied to the excavation bit 21, and the injection hole 22 may be provided with a control valve (not shown) to configure the ground control.

Subsequently, at least one guide bit 30 is configured on the outer surface of the rod part 10 as shown in FIG. 1, and is configured to interlock with the rotation of the rod part 10, as shown in the excavation part 30. It is arranged in a plurality adjacent to the area to perform the action between the eco-friendly hardener and the earth and sand and strengthen the ground of the perforated inner peripheral surface.

At this time, the guide bit 30 is configured on the outer surface of the rod portion 10 as shown in Figs. 1 to 2, a pair of center reference to the rod portion 10 at the same height may be configured in a point symmetric structure, the In addition, three or more guide bits 30 may be configured at the same height, and the consolidation blade 344 and the stirring blade 321 of the guide bits 30 to be described later are rotated as the rod part 10 rotates. It is preferable to arrange | position so that the main body 31 may face the direction which progresses.

The guide bit 30 is characterized in that it comprises a main body 31, the stirring blade 32 and the consolidation wing 34.

First, the main body 31 is formed to extend by a predetermined length in the transverse side perpendicular to the longitudinal direction of the rod 10 from the outer surface of the rod 10, the cross-sectional shape of the main body 31 is circular, ellipse or Various configurations such as polygonal shapes can be achieved.

In addition, at least one stirring blade 32 is formed on each of the upper and lower surfaces of the main body 31, as shown in Figure 2, by the excavation portion 30 while being interlocked by the rotation of the rod 10. The excavated soil and the environmentally friendly hardener sprayed through the injection hole 22 is to be mixed to perform a stirring action.

In addition, the consolidation wing 34 is configured at the end of the main body 31 and serves to firmly ground the ground of the perforated wall while expanding the perforated wall perforated by the excavation part 30.

Hereinafter, a detailed embodiment of the consolidated wing 34 will be described with reference to FIGS. 3 to 4.

As shown in FIG. 3, the consolidation wing 34 according to the present exemplary embodiment has a structure in which the vertical portion 341 and the inclined portion 342 are bent to each other.

At this time, the vertical portion 341 is a longitudinal direction thereof is disposed in parallel with the rod portion 10, the inclined portion 342 is the end of the rod portion 10 from the lower end of the vertical portion 341 It extends to have a predetermined inclination angle θ1 to face ().

Looking at the operation state of the consolidation wing 34 with reference to Figure 3, the consolidation wing 34 according to the present invention is a diameter of the distance to the center of the rod portion 10 excavation of the excavation portion 30 Bar larger than the diameter of the bit 21. The consolidation wing 34 descending along the excavation part 30 is lowered while expanding the drilling hole formed by the excavation part 30.

That is, when the hole is expanded, the consolidation blade 34 rotates to extend the perforated wall by acting in the order of the inclined portion 342 and the vertical portion 341 on the upper side thereof, wherein the inclined portion ( 342 is bent inwardly by the inclination angle θ1, as shown in FIG. 3, the expansion action of the drilling hole starts at the lower end of the inclined portion 342 having the smallest diameter, and the consolidation wing 34 descends to increase the diameter of the drilling hole. It is possible to gradually expand while passing through the upper portion and the vertical portion 341 of the inclined portion 342.

At this time, when the expansion hole by the lower end of the inclined portion 342, the diameter of ① is formed, the consolidation wing 34 is gradually lowered, the expansion by the upper portion and the vertical portion 341 of the inclined portion 342 As a diameter corresponding to ② is formed, the earth and sand T1 located between ① and ② as shown in FIG. 3 is forcibly consolidated to the side surface (perforated wall) as the inclined portion 342, which gradually increases in diameter, descends to the perforated wall. This firming effect can be expressed.

This means that if the consolidation wing 34 is formed in a straight shape having a diameter of ②, while the consolidation wing 34 rotates, the lower end acts on the perforated wall, so that the perforated wall collapses and disturbs in a range larger than the diameter of ②. Perforated walls become difficult to remain firm.

In addition, by preventing the inflow of the soil more than T1 to the stirring blade 32 area to reduce the slime discharge generated during the stirring action between the soil and the eco-friendly hardener can be an environmentally friendly effect.

At this time, the bent inclination angle θ1 of the vertical portion 341 and the inclined portion 342 is preferably configured to 20 ° to 25 °, when the θ 1 is formed to 20 ° or less is less than the amount of earth and sand T 1 is consolidated forcibly The effect is insignificant, and the slime discharge is not greatly reduced, and when the θ1 is 25 ° or more, a large load is applied to the consolidation wing 34 during excavation and expansion of the drill hole, resulting in deformation and breakage. It can act as a factor of lowering the durability of), and in the present invention, it is preferable to limit the inclination angle θ1 to 20 ° to 25 °.

Meanwhile, as shown in FIG. 4, the consolidation blade 34 may have a cross section having a triangular shape. In this case, the consolidation blade 344, which is one corner of the triangular cross section, may have the rod portion 10. The main body 31 is configured to face a direction in which the main body 31 proceeds by rotation of the arrow.

In addition, when the angle between the two surfaces adjacent to the consolidation blade 344 of the surface forming the triangular shape of the consolidation wing 34 is θ2, the opposite side of the rod portion 10 in the drawing of the two surfaces The consolidation surface 346 is positioned to form? 2 so as to protrude outward (direction away from the center of the rod portion 10) toward the rear end from the consolidation blade 344, which is its tip, and the consolidation wing 34 as in the above-described embodiment. In the direction of the arrow in the drawing to T2 by the consolidation surface 346 configured to gradually increase the diameter (distance from the center of the rod portion 10) from the consolidation blade 344 having a smaller diameter. Corresponding soil may be forced to the outside to compact the perforated wall more firmly.

That is, in the present invention, the earth and sand T1 according to the embodiment and the earth and sand T2 according to the present embodiment are forcibly consolidated to the outside (perforated wall), so that the rigidity of the perforated wall due to the complex compaction action can be doubled. As much soil as T1 and T2 is excluded, slime emissions can be significantly reduced.

Hereinafter, with reference to Figure 5 will be described with respect to a specific embodiment of the stirring blade 32 which is one configuration of the present invention.

As shown, the stirring blade 32 according to the present embodiment is one or more configured on the upper and lower surfaces of the main body 31, the stirring blade 321 protruding sharply toward the rotation progress direction of the main body 31 and It may be configured to include a stirring surface 322 which is a surface adjacent to the stirring blade 321.

At this time, the stirring blade 32 may be configured to have a constant inclination angle to the rod portion 10 or the opposite side, preferably a plurality of stirring blades 32 may be adjacent to the stirring blade 32 and By configuring to have different inclination, when the earth and sand and eco-friendly hardener, such as the arrow in the drawing hits the stirring surface 322, it flows laterally by the inclination of the stirring blade 32 and these It is possible to maximize the stirring efficiency of the stirring device by causing a collision with the earth and sand and the environment-friendly hardener flowing by the stirring blade 32 having the opposite slope.

6 shows a state in which the stirring device equipped with the guide bit 30 according to the present invention is continuously inserted for the construction of the continuous wall. In this case, the interval between the adjacent stirring devices is narrow and the guide bit 30 is between the guide bits 30. Interference may occur, it is possible to overcome this by differently configuring the height of the guide bit 30 between the neighboring stirring device.

Meanwhile, the present invention also provides a high-strength continuous wall forming method and a deep mixing process (H.D.C.M) using a stirring device provided with a guide bit. Hereinafter, the present invention will be described in detail with reference to FIG. 7.

The reverse rotation stirring device according to the present invention and the high-strength deep mixing treatment and temporary wall construction method using the same include the penetration step (S10), supply step (S20), stirring and compacting step (S30), first penetration step ( In S10) to drill the soft ground with the excavation bit is configured at the bottom of the reverse rotation stirring device is to inject the stirring device provided with the guide bit 30.

Subsequently, in the supply step (S20) while drawing the stirring device with the guide bit 30 according to the present invention described above, the environmentally friendly soil to the soil of the soft ground through the injection hole 22 configured at the bottom of the excavation portion 30 The topic will be supplied.

Then, in the stirring and compacting step (S30), as the guide bit 30 rotates, the perforated wall is firmly compacted by the consolidation wing 34, and the soil and the eco-friendly solidifying agent of the soft ground are stirred by the stirring wing 32. It will be stirred.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

10: rod portion 20: excavation portion
21: drilling bit 22: injection hole
30: guide bit 31: main body
32: stirring blade 34: consolidation wing

Claims (6)

A rod configured to deliver air and an eco-friendly hardener to the bottom through a passage formed in the inner side;
An excavation part configured at a lower end of the rod part and including an injection hole for injecting an eco-friendly hardener delivered through a passage of the rod part into the ground and a drilling bit for drilling the ground;
One or more guide bits configured on an outer surface of the rod part and configured to cooperate with rotation of the rod part;
Stirring device provided with a guide bit, characterized in that configured to include.
The method of claim 1,
The guide bit,
A main body extending from the outer surface of the rod portion in a transverse direction perpendicular to the longitudinal direction of the rod portion by a predetermined length;
Agitation blades each configured at least one on the upper and lower surfaces of the main body;
Consolidation wing configured at the end of the main body;
Stirring device provided with a guide bit, characterized in that comprising a.
The method of claim 2,
The consolidated wing is configured to include a vertical portion and an inclined portion connected to each other in a bent form,
The vertical portion is disposed in parallel with the rod in the longitudinal direction,
And the inclined portion extends at a lower end of the vertical portion to have a predetermined inclination angle θ1 so that the end thereof faces the rod portion.
The method of claim 3, wherein
The inclination angle θ1 is the stirring device with a guide bit, characterized in that 20 ° to 25 °.
The method of claim 3, wherein
The consolidation blade is configured in a triangular cross-section, the consolidation blade, which is one corner of the triangular cross section is configured to face the direction in which the main body proceeds by the rotation of the rod,
Concave surface of the triangular surface of the consolidation blade adjacent to the consolidation blade, the consolidation surface located on the opposite side of the rod portion is configured to have a predetermined inclination angle θ2 so as to protrude outward toward the rear end side from the consolidation blade that is its tip end Stirring device provided with a guide bit, characterized in that the.
Penetrating step of injecting into the soft ground using a stirring device equipped with a guide bit of any one of claims 1 to 5;
A supplying step of supplying an eco-friendly hardener in the ground by using a stirring device with a guide bit according to any one of claims 1 to 5;
A stirring and compacting step of stirring and mixing the earth and sand and eco-friendly hardener by using a stirring device equipped with a guide bit of any one of claims 1 to 5 and chopping the perforated wall;
High-strength continuous wall formation and deep mixing treatment method using a stirring device provided with a guide bit made of a.

Images